# Introduction

iabetes mellitus (DM) is a clinical syndrome characterized by chronic hyperglycemia and disturbances of carbohydrate, fat and protein metabolism associated with absolute or relative deficiencies in insulin secretion and/or insulin action. [1] As the incidence and prevalence of diabetes is increasing day by day so the world is facing an escalating epidemic of diabetes. The prevalence of diabetes in adults worldwide, estimated to be 4% in 1995, is supposed to rise to 5.4% by the year 2025, and is higher in developed countries than in developing countries. The major part of this increase will occur in developing countries so by the year 2025, more than 75% of people with diabetes will reside in developing countries like India, China and U.S. [1] Continuous research work has been done in this area of internal medicine, but lack of infirmity and standardization of screening procedure accounts for difficulty in evaluation of prevalence rates of Diabetes. Diabetes is itself a complex disease, moreover variation in diagnostic techniques used all over world makes this task more difficult, but inspite of that a good deal of progress has been made worldwide. In India specially, Western Rajasthan still lots of worked has to be done. One of the main reason for difficulty in resolving this problem is lack of satisfactory method for quantitative assessment of Diabetes control. This problem is not solved by routinely used methods like random blood sugar estimation and intermittent measurement of daily urinary glucose excretions. These methods are inadequate, unreliable, cumbersome and impractical to monitor continuous 24 hours blood glucose levels specially in out-patient setting. The answer to this problem is development of new test detecting Haemoglobin A 1 C, indicates plasma glucose level in last 3 months duration hence it is satisfactory tool for assessment of diabetic control. This method is helpful not only for conducting long term studies on the course and effect relationship between diabetic control and late complications but also for day to day management of diabetic patient.

Haemoglobin A 1 C, a fast moving minor Haemoglobin component is present in normal persons, but increases in presence of hyperglycemia. HbA 1 is fractionated into HbA 1 a,b,c by ion exchange column chromatography. Most of these are HbA1C and are most susceptible to the effects of fluctuation in glucose levels. That is why it is most suitable as an indicator of blood glucose control. [2,3] Synthesis of increased amounts of HbA 1 C has been shown to correlate with glucose control in diabetics. [4] As the number of studies done about screening the glycaemic control and early detection of complications are very less specially in western zone of Rajasthan, therefore the present study is planned to know about the glycaemic control of diabetic patient by HbA1C and to know about the various complications. Prior consent was taken of all patients included in the study. A self preparedsemistructuredProforma was used to obtain complete clinical picture of patients. The Proforma comprised of three parts, part one consisting of epidemiological profile and detailed history regarding diabetes mellitus, part two consisting of complete physical examination and part three consisting of complete investigations regarding diabetes mellitus as well as other body system functions.


# II.


# Materials and Methods

The diagnostic criteria were based on WHO study group criteria (i.e. fasting plasma glucose ?126 mg/dl or 2 hours post glucose level ?200 mg/dl). [5] Quantitative estimation of glycosylated Haemoglobin (HbA1) in blood by cation exchange resin chromatography method. From the value of HbA1, HbA1c was calculated using the formula [HbA1c = (HbA1 - 


# Results

Total one hundred confirmed diabetic patients were included in the study. Patients belonged to 14 -85 years age group (mean age 55.7±12.9 years). Majority 65(65%) of patients were males and patients between 41-60 years were most commonly (49%) affected. Majority 86(86%) of the patients belong to diabetes mellitus type-2.(Table 1)  Among both type of diabetes with increasing fasting plasma glucose, level of glycosylated Haemoglobin increases and on regression analysis this result was found statistically significant(p<0.001). In case of Type-1 diabetes mellitus only 2(14.28%) patients having fasting plasma glucose level below 140 mg/dl and their glycosylated Haemoglobin was less than 7.0%. While only 3(21.42%) patients having fasting plasma glucose level more than 300 mg/dl and their glycosylated Haemoglobin was more than 11.0%. In case of Type-2 diabetes mellitus only 12(13.95%) patients having fasting plasma glucose level below 140 mg/dl and their glycosylated Haemoglobin was less than 7.0%. While only 7(8.14%) patients having fasting plasma glucose level more than 300 mg/dl and their glycosylated Haemoglobin was more than 11.0%.(Figure 1)

Figure 2: Showing linear relationship between post prandial plasma glucose and glycosylated Haemoglobin level

In case of diabetes mellitus type-1 majority 10(71.42%) of patients had complications. Among these 3(21.42%) patients had Retinopathy followed by Nephropathy, Neuropathy and Cardiovascular diseases in 2(14.28%) patients and Skin related complications in 1(7.14%) patients. Among these patients with complications, majority 6(60%) of patients had duration of illness more than 5 years.

In case of diabetes mellitus type-2 majority 56(65.11%) of patients had complications. Among these 33(38.37%) patients had Nephropathy followed by Cardiovascular diseases in 27(31.4%) patients, Skin related complications in 20(23.56%) patients, Neuropathy in 18(20.93%) patients, Retinopathy in 16(18.6%) patients and cerebrovascular accident in 1(1.16%) patients. Among these patients with complications, majority 40(70.46%) of patients had duration of illness more than 5 years.

Most common complication among diabetes mellitus was nephropathy (38%) and least common complication was cerebrovascular accident (2%). As greater the duration of diabetes, the burden of complications also increases.(Table 3)  mg/dl and their glycosylated Haemoglobin was less than 9.0%. While only 13(15.12%) patients having post prandial plasma glucose level more than 300 mg/dl and their glycosylated Haemoglobin was more than 11.0%.(Figure 2)

In case of type-1 diabetes mellitus, all type of complications except CVA were found in patients with Glycosylated Haemoglobin level more than 11.0%.

In case of type-2 diabetes mellitus, majority of the patients having Glycosylated Haemoglobin level more than 9.0% presented with complications. Among all cases majority 57(57%) patients did not had albuminuria, while 43(43%) patients had albuminuria either microalbuminuria and /ormacroalbuminuria . (Table4) IV.


# Discussion

Present study was conducted at chemical pathology section of Department of Pathology, Mahatma Gandhi and Mathura Das Mathur Hospital, affiliated to Dr. S. N. Medical College, Jodhpur and One hundred diabetic patients attending medical outpatient department of Mahatma Gandhi and Mathura Das Mathur Hospital, Jodhpur were included in the study.

In our study majority 67(67%) of patients belong to 45-65 years age group, while only 16(16%) patients were of more than 65 year of age. In congruence to our results study conducted by King et al [1] found that majority of the patients belonged to middle age (45-65 years) group in developing countries like india and majority of diabetic patients are in the older age category ( ? 65 years) in developed countries. So in developing countries, these patients will have more years of life to develop chronic complications of diabetes, which undoubtedly will have major implications with respect to health care needs, resource utilization and cost.

Age of 10(71.44%) Type-1 Diabetic patients were below 40 years of age while only 2(2.32%) of Type-2 diabetics were belonging to this group and 84(97.68%) Type-2 diabetics were more than 40 years age group. Similar to our findings, study conducted by La Porte R.E. et al. [6] found that majority (85-89%) of the patients belong to Type-2 diabetes mellitus and usually occurs in adults over 35 years of age while Type-1 diabetes accounts for 0.2 to 1.5 percent of patients and especially afflicts children and young adults.

Among both type of diabetes there was strong correlation between levels of glycosylated Haemoglobin and fasting plasma glucose(p<0.001) and with increasing fasting plasma glucose, level of glycosylated Haemoglobin increases and on regression analysis this result was found statistically significant(p<0.001). Similar to our results Tossapornpong et al [7][8][9][10] . Also found significant correlation between glycosylated Haemoglobin level and fasting plasma glucose (p<0.1), but in contrast to our result their correlation was poor.

In present study majority (28.57%) of type-1 DM patients had fasting plasma glucose level between 141-180 mg/dl. Similar to our results Masram S. W. et al [11] also observed mean fasting plasma glucose level 169.47 mg/dl. In our study majority (28.57%) of type-1 DM patients had HbA1c level more than 12%. In contrast to our result Masram S. W. et al [11] observed mean HbA1c level 9.1%.

In present study majority (27.90%) of type-2 DM patients had fasting plasma glucose level between 181-220 mg/dl. Similar to our results Masram S. W. etal [11] also observed mean fasting plasma glucose level 223.82 mg/dl. In our study majority (25.58%) of type-2 DM patients had HbA1c level more than 7.1-8.0%. In contrast to our result Masram S. W. et al [11] observed mean HbA1c level 11.06%.

There was strong correlation between post prandial plasma glucose and level of glycosylated Haemoglobin (p<0.001) in both types of diabetic patients in the present study and similar to our results Masram S. W. et al [11] also found strong correlation between post prandial plasma glucose and level of glycosylated Haemoglobin (p<0.001).

In present study majority (28.57%) of type-1 DM patients had post meal plasma glucose level between 180-220 mg/dl. Similar to our results Masram S. W. et al [11] also observed mean fasting plasma glucose level 243.93 mg/dl. In our study majority (28.57%) of type-1 DM patients had HbA1c level more than 12%. In contrast to our result Masram S. W. et al [11] observed mean HbA1c level 9.1%.

In present study majority (30.23%) of type-2 DM patients had fasting plasma glucose level between 221-260 mg/dl. Similar to our results Masram S. W. et al [10] also observed mean fasting plasma glucose level 269.94 mg/dl. In our study majority (25.58%) of type-2 DM patients had HbA1c level more than 7.1-8.0%. In contrast to our result Masram S. W. et al [11] observed mean HbA1c level 11.06%. cerebrovascular accident(2%) in present study and similar to our result Masram S. W. et al [11] also found CVD in 33% and CVA in only 6.9% diabetics. In contrary to our finding Masram S. W. et al [11] found neuropathy in 60% and retinopathy in 15.4% diabetics.

Present study showed 43% of diabetic had albuminuria either microalbuminuria or macroal buminuria. Similar to our result Deepak Parchwani et al [12] also found microalbuminuria in 30% of diabetics.

V.


# Conclusion

In most of diabetics there was linear correlation between glycosylated Haemoglobin and fasting plasma glucose as well as post prandial plasma glucose. With increased duration of illness burden of complications also increases. We concluded that most of diabetic patients having high level of glycosylated Haemoglobin, also had one or more diabetic complications. Glycosylated Haemoglobin did not correlate well with blood glucose level estimated at one point of time. Glycosylated Haemoglobin is a better index for diagnosis and control of diabetes and for early detection of complications.
![a) Study design A hospital based Cross sectional study design was adopted for the study. b) Study Area Study was conducted at chemical pathology section of Department of Pathology, Mahatma Gandhi and Mathura Das Mathur Hospital, affiliated to Dr. S. N. Medical College, Jodhpur. c) Sample size One hundred diabetic patients attending medical outpatient department of Mahatma Gandhi and Mathura Das Mathur Hospital, Jodhpur were included in the study. d) Tool and Techniques Patients attending medical outpatient department of Mahatma Gandhi and Mathura Das Mathur Hospital, Jodhpur were scruted for diabetes mellitus.](image-2.png "")
1![Figure 1 : Showing linear relationship between fasting plasma glucose and glycosylated Haemoglobin levelAmong both type of diabetes with increasing post prandial plasma glucose, level of glycosylated Haemoglobin increases and on regression analysis this result was found statistically significant(p<0.001). In case of Type-1 diabetes mellitus 6(42.95%) patients having post prandial plasma glucose level below 220 mg/dl and their glycosylated Haemoglobin was less than 8.0%. While 4(28.57%) patients having post prandial plasma glucose level more than 300 mg/dl and their glycosylated Haemoglobin was more than 11.0%. In case of Type-2 diabetes mellitus 27(31.4%) patients having post prandial plasma glucose level below 220](image-3.png "Figure 1 :")
e) Exclusion Criteria1. Patients with recent onset diabetes (<6 months).2. Patients within 1 month of any coronary vascularevent.3. Patients with recent acute illness (<3 months).4. Patientsofliverdisease,goutandhypothyroidism.5. Alcoholic patients.6. Patients on lipid lowering agents, niacin,neomycin, estrogen, HRT, corticosteroids andstanozolol.7. Pregnancy.f) Data AnalysisData was entered and analyzed by using Microsoft Exel and SPSS Version 16.0 and appropriate statistical tests were applied to find out statistically significant difference.III.
1AgeType of DiabetesTotalType 1 Diabetes MellitusType 2 Diabetes Mellitus0-201 (7.14)0 (0)1 (1)21-409 (64.28)2 (2.32)11 (11)41-603 (21.43)46 (53.49)49 (49)61-801 (7.14)37 (43.02)38 (39)>800 (0)1 (1.17)1 (1)14 (100)86 (100)100 (100)Among Both Type-1 DM and Type-2 DMType-2) and Weight loss (57.14% in Type-1 and 61.62%patients most common presenting symptoms wasType-2).polyuria (92.85% in Type-1 and 95.34% in Type-2)Majority of 8(57.12%) Type-1 diabetics andfollowed by Polyphasia (85.71% in Type-1 and 91.86% in43(50%) of Type-2 diabetics were having more than 9%Type-2), Polydypsia (85.71% in Type-1 and 86.04% inglycosylated Haemoglobin.(Table 2)Type-2), Weakness (64.28 in Type-1 and 61.62% in
2ClinicalGlycosylated HaemoglobinPresentation
3ComplicationsDuration?5>5TotalNeuropathy10 (17.85%)14 (31.81%)24 (24%)Nephropathy18 (32.14%)20 (45.45%)38 (38%)Retinopathy10 (17.85%)15 (34.09%)25 (25%)CVA2 (3.57%)0 (0%)2 (2%)CVD13 (23.21%)20 (45.45%)33 (33%)Skin13 (23.21%)13 (29.54%)26 (26%)Note: Figures are overlapping.
4AlbuminuriaGlycosylated Haemoglobin?7.07.1-8.1-9.1-10.1-11.1->12.0 Total8.09.010.011.012.0Nonalbuminuric171941012457(57%)Microalbuminuric0525751236(36%)Macroalbuminuric01100147(7%)Total17257158820100(100%)
			Volume Issue 1 Version I © 2015 Global Journals Inc. (US) Year 2015
		
		
			

				


* 
	
		Global burden of diabetes, 1995-2025: prevalence, numerical estimates, and projections
		
			HKing
		
		
			REAubert
		
		
			WHHerman
		
	
	
		Diabetes Care
		
			21
			
			1998
		
	




* 
	
		Glycosylated Haemoglobin
		
			HBChandalia
		
		
			PRKrishnaswami
		
	
	
		Current Science
		
			83
			12
			
			2002
		
	




* 
	
		Standardization of HbA1c
		
			HBChandalia
		
	
	
		Int J Diab. Dev. Ctries
		
			30
			
			2010
		
	




* 
	
		Studies on the heterogeneity of Haemoglobin binding of
		
			TMHuisman
		
		
			AMDozy
		
		
	




* 
	
		Haemoglobin with oxidized glutathione
	
	
		J Lab Clin Med
		
			60
			302
			1962
		
	




* 
	
		Diagnosis and classification of diabetes mellitus
	
	
		American Diabetes Association
		
			33
			
			2010
		
	
	Diabetes Care




* 
	
		Geographical differences in the risk of insulin dependent diabetes mellitus
		
			LaPorte
		
		
			RETajuma
		
		
			NAkerblom
		
		
			HK
		
	
	
		Diabetes care
		
			2
			
			2006
		
	
	suppl




* 
	
		The study of the relationship between Haemoglobin A1c and fasting plasms glucose in order to evaluate diabetic control and evaluation of risk factors of atherosclerosis of diabetic patients in DM clinic at Makarak Hospital
		
			KTossapornpong
		
	
	
		Reg 7 Med J
		
			17
			
			1998
		
	




* 
	
		The correlation of fasting blood sugar and HbA1C in diabetic clinic of
		
			TKittiperachol
		
		
	




* 
	
		
	
	
		Sappasithiprasong Hospital Ubonratchathani. Med J UbonHosp
		
			22
			
			2001
		
	




* 
	
		Relationship between fasting plasma glucose and Haemoglobin A1c of type II diabetic patients
		
			RSripanithan
		
		
			Phrae Hospital Diabetic Clinic
		
	




* 
	
		
	
	
		Buddhachinaraj Med J
		
			22
			
			2005
		
	




* 
	
		Correlation between Haemoglobin A1c level and fasting plasma glucose level of diabetic patients in Nakhonchaisi Hospital
		
			CSuphpaprasith
		
		
			
		
	




* 
	
		
		
			JMed
		
		
			2008
			27
			
		
	




* 
	
		Assessment of contribution of fasting and post meal plasma glucose to increase Glycosylated Haemoglobin in diabetes mellitus-A comperative study
		
			SWMasram
		
	
	
		Int J Biol Med Res
		
			3
			3
			
			2012
		
	




* 
	
		MicroalbuminuriaIn Diabetic Patients: Prevalence And Putative Risk Factors
		
			SPDeepak Parchwani1
		
		
			Singh
		
	
	
		National Journal Of Community Medicine
		
			2
			1
			
			2011