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Are blood glucose control and quality of life related?

Maggie Watkinson

It seems to be a reasonably common notion among healthcare professionals that good diabetes control, determined by a normal, or near normal, glycosylated haemoglobin (HbA1c) level, ensures that people with diabetes have an improved quality of life (QoL). This article examines this assumption; some of the literature is briefly reviewed, as is the concept of QoL; the quality of QoL studies is discussed, and conclusions about whether the assumption is accurate are drawn.

There is now very strong evidence that a normal or near normal blood glucose level reduces the risks of developing diabetes complications (Diabetes Control and Complications Trial (DCCT), 1993; United Kingdom Prospective Diabetes Study (UKPDS), 1998). Both the DCCT (1996) and the UKPDS (1998) examined the effect of improved diabetes control on individuals’ quality of life (QoL) and came to the conclusion that there was no significant impact, either positively or negatively. However, these results need to be interpreted with caution; for example, the instruments used to measure QoL may not actually be measuring that concept. Also, improved diabetes control not having a significant impact on QoL does not necessarily mean that it is associated with a ‘good’, or improved, QoL.

As well as these two major studies, which examined QoL as a secondary outcome, there are also several other studies exploring QoL and diabetes control which need to be considered.

What does the literature reveal?
Ingersoll and Marrero (1991) affirm that it is often assumed that maintenance of long-term blood glucose control and the concomitant reduction in diabetes complications leads to improved QoL in people with diabetes. Although there is some evidence to support this viewpoint (Gafvels et al, 1993) there is also an alternative perspective. Kiln (1995), for example, argues that the delay in onset of retinopathy for a year or two is not justified by a twenty year reduction in QoL and no social life.

Many studies which explicitly endeavoured to examine correlations between QoL and diabetes control found no relationships. For instance, Pecoraro et al (1986) using the Sickness Impact Profile and The Health Perception questionnaire, found there was no significant relationship between glycaemic control and variations in health status. Similarly Hornquist et al (1990), investigating the effects of changing from syringe use to a pen regimen, found that using the pen improved QoL for the majority of patients. However, only those patients whose insulin regimen changed from one or two injections had improved diabetes control; hence, the authors concluded that there seemed to be no relationship between improved metabolic control and QoL.

In a similar study, Tallroth et al (1990) compared a multiple injection insulin regimen (four injections a day), with and without a pen device, to thrice daily injections using a syringe. They concluded that the q.d.s. regimen and probably the pen were responsible for the increased experience of well-being. However, glycaemic control did not improve in their group of patients. The study of Hanestad et al (1991), which had the specific aim of analysing the association between self-assessed satisfaction with life and glycosylated haemoglobin, concluded with the statement that there was no such relationship, although there were some associations with specific domains of the QoL instrument used. Similarly, Wallymahmed et al (1992) found there was no relationship between perceived QoL and HbA1c, using the DQOL, the QoL instrument devised for the DCCT (1993).

Karlson and Agardh (1994) undertook a very similar study to that of Tallroth et al (1990), which resulted in a similar outcome: multiple injection therapy improved QoL, but there was no improvement in diabetes control. Weinberger et al (1994) examined QoL in people with type 2 diabetes, using the SF36, a commonly used health status instrument. They also concluded that there was no relationship between glycosylated haemoglobin and the SF36 scores. A year later, Weinberger et al (1995) examined the impact of a nurse-coordinated intervention in primary care on QoL and glycaemic control. In this study the latter was improved, but there was no effect on QoL. Aalto et al (1997) also found that health related QoL was not related to glycaemic control.

In many of these studies, QoL improved as a result of the intervention being investigated but metabolic control did not, and in others metabolic control improved but QoL did not! Other studies seem to indicate that metabolic control is actually detrimental with regard to QoL. Naess et al (1995), in a population study of 75 000 people, concluded that psychological well-being was significantly related to HbA1c, with a low result (good from the metabolic perspective) leading to low well-being scores and high HbA1c giving rise to high well-being scores. This indicates that good diabetes control is not conducive to a high QoL. Similarly, Wikblad et al (1990), although not assessing QoL per se, found that good diabetes control was associated with a more negative attitude to diabetes. Wikby et al (1993a;1993b), when analysing change in QoL over time, concluded that people with poorer metabolic control actually rated their QoL higher.

In contrast, Hanestad (1993) found that higher HbA1c was associated with decreased satisfaction with the physical and acitivity life domains of Hornquist’s (1982; 1989) QoL package. This supports the results of her 1991 study (Hanestad and Albrektsen, 1991) in which females reporting more difficulties adhering to their diabetes regimens, and having lower QoL, were found to have higher HbA1c than those who had fewer adherence problems. Eiser et al (1992), using an adapted DQOL, also found that a lower fructosamine level was associated with a higher satisfaction with life with diabetes in a sample of young adults.

On the basis of data from these studies, it appears that the majority of investigators have found no relationship between metabolic control and QoL. Although some have found that ‘good’ control is related to a ‘good’ QoL, others have concluded that the relationship is inverse, i.e. good diabetes control is detrimental from a QoL perspective, affirming Kiln’s (1995) view.

It is apparent that much further work needs to be undertaken to explore this issue. However, the apparently confusing situation about the relationship, or lack of it, between QoL and metabolic control may be caused by methodological differences and flaws in the studies undertaken.

The problem with the concept
One of the problems in performing QoL research is the lack of consensus about the concept itself. The major difficulty with identifying the characteristics of QoL is that it is a construct, or a concept, which has general meanings as a result of very high levels of abstraction (Burns and Grove, 1993). These highly abstract concepts are, according to Chinn and Kramer (1995), constructed from other concepts, which in the case of QoL, are often themselves not well defined, for instance, well-being and satisfaction (these conceptual difficulties probably explain why the terms ‘well-being’ and ‘life satisfaction’ are frequently used as synonyms for QoL). Thus, there is apparent confusion about the concept of QoL. Stewart (1992) partly attributes this confusion to a lack of clarity in distinguishing between what QoL is and what contributes to it.

Burns and Grove (1993) state that any concept, or variable, in a study requires both conceptual and operational definitions, the former providing the theoretical meaning – what QoL is. Gill and Feinstein (1994) suggest that, as there is no consensus about the meaning of QoL, or its components, researchers should at least describe what they perceive it to be. Many studies exploring diabetes and QoL unfortunately fail to offer these conceptual definitions or descriptions, thereby making it difficult for the reader to assess exactly what concept is being measured, as there is no basis to judge the suitability or otherwise of the instruments chosen to measure the phenomena of interest (Gill and Feinstein, 1994).

Operational definitions, however, are provided in most of the studies discussed above. These definitions result from a set of operations or procedures to be utilised in measuring the concept or variable in question (Burns and Grove, 1993), and may provide clues about how researchers view the concept. However, Gill and Feinstein (1994) add a note of caution, suggesting that it is inappropriate to make assumptions about the meaning of QoL in a particular study on the basis of operational definitions. The reason is that many QoL instruments are used for a variety of purposes; hence, it is unsafe to assume that QoL can be adequately defined in a particular study simply from a description of what that tool measures.

An example illustrates this point: the SF36 has been described as a QoL instrument (Jacobson, De Groot and Samson, 1994), a measure of generic health status (Bowling, 1995) and a health-related QoL tool (Weinberger et al, 1994; 1995). Functional status, health status, quality of life and health-related quality of life are all terms used in the literature somewhat indiscriminately and as synonyms for one another. It seems evident that the advice offered by Gill and Feinstein (1994) is essential: if researchers describe their understanding of the terms they use, the reader can make sense of their study.

Researchers also face another problem: the lack of consensus about what QoL is and what its components are – crucial pieces of information when measuring QoL – means that there is no ‘gold standard’ QoL instrument which can be used in all studies (and allow direct comparison between them). The studies discussed above used many different instruments (Table 1) and it is therefore not surprising that a firm conclusion about the relationship, or otherwise, between QoL and HbA1c cannot safely be reached.

Reliability and validity
As well as difficulties with the concept of QoL, there are also some methodological problems evident in the diabetes related QoL literature, particularly in relation to the reliability and validity of the results obtained.

Validity refers to the extent to which an instrument actually measures what it is supposed to be measuring (Guyatt et al, 1993). The validity of an instrument in one situation does not necessarily ensure that it is valid in another. Rather, the assessment of validity is an ongoing process and ideally should be undertaken in every study in which the instrument is used.

It is somewhat disturbing, therefore, that in many of the studies discussed above, instrument validity was not determined. Consequently, as many of the existing instruments had not been revalidated in individual studies, and many newly developed tools had not been adequately validated initially, many of the results of these QoL studies may be doubtful.

Reliability is concerned with how consistently the instrument being used measures the concept being investigated (Burns and Grove, 1993). The reliability of most QoL instruments is measured by assessing internal consistency, or the extent to which all the items in a tool are measuring the same construct (Burns and Grove, 1993).

Again, in many of the studies discussed above, reliability was not measured. Many authors intimated that the instrument they were using had been assessed for both validity and reliability and may have deemed this to be adequate. However, Burns & Grove (1993) state that it is necessary to test the instrument in each study in which it is used, to ensure reliability is satisfactory in other samples. Thus it can be seen that the results from certain studies may be dubious.

Discussion and conclusion
It would seem apparent that no firm judgements can be safely made about whether or not a relationship exists between QoL and metabolic control, although there are indications that there is no relationship. This difficulty in arriving at a conclusion is probably due, in part, to the plethora of instruments which have been used to measure the concept; this is illustrated by the fact that in the fifteen studies discussed above, which all professed to be studying QoL, twelve different instruments were reportedly used. Many researchers seem to choose the QoL measure they use at random and there are few justifications for their choices.

Another observation is that some investigators are not measuring QoL overall; many instruments used are health or functional status instruments, or those which deal with aspects, or domains, of QoL. It would seem appropriate that if researchers wish to examine specific aspects of health and disease, the instruments they use to do so should not be labelled QoL tools.

The rigour of many studies is also suspect as psychometric testing of existing instruments in fresh research settings, and with a different sample, is often not undertaken.

Until further work to clarify the concept of QoL and studies investigating the concept in the context of diabetes care are carried out rigorously, the results of existing studies must be interpreted with caution. The assumption that improved diabetes control leads to a better QoL does not appear to be supported by the literature; however, the lack of methodological rigour in some studies makes this conclusion somewhat tentative.

REFERENCES:

Aalto A-M, Uutela A, Aro AR (1997) Health related quality of life among insulin-dependent diabetics: disease-related and psychosocial correlates. Patient Education and Counselling 30: 215–225
Bowling A (1995) Measuring disease. A review of disease-specific quality of life measurement scales. Open University Press, Buckingham
Burns N, Grove SK (1993) The practice of nursing research: conduct, critique and utilization (second edition). WB Saunders Company, Philadelphia
Chinn PL, Kramer MK (1995) Theory of nursing: a systematic approach. Mosby-Year Book Inc, St Louis
Diabetes Control and Complications Trial Research Group (1993) The effect of intensive treatment of diabetes on the development and progression of long-term complications in insulin-dependent diabetes mellitus. New England Journal of Medicine 329: 977–986
Diabetes Control and Complications Trial Research Group (1996) Influence of intensive diabetes treatment on quality-of-life outcomes in the Diabetes Control and Complications Trial. Diabetes Care 19(3): 195–203
Eiser C, Flynn M, Green E, Havermans T, Kirby R, Sandeman D, Tooke JE (1992) Quality of life in young adults with type 1 diabetes in relation to demographic and disease variables. Diabetic Medicine 9: 375–378
Gafvels C, Lithner F, Borjesson B (1993) Living with diabetes: relationship to gender, duration and complications. A survey in Northern Sweden. Diabetic Medicine 10: 768–773
Gill TM, Feinstein AR (1994) A critical appraisal of the quality of quality-of-life measurements. Journal of the American Medical Association 272(8): 619–626
Guyatt GH, Feeny DH, Patrick DL (1993) Measuring health-related quality of life. Annals of Internal Medicine 118: 622–629
Hanestad BR, Albrektsen G (1991) Quality of life, perceived adherence to a diabetes regimen, and blood glucose control. Diabetic Medicine 8: 759–764
Hanestad BR, Hornquist JO, Albrektsen G (1991) Self-assessed quality of life and metabolic control in persons with insulin-dependent diabetes mellitus (IDDM). Scandinavian Journal of Social Medicine 19(1): 57–65
Hanestad BR (1993) Self-reported quality of life and the effect of different clinical and demographic characteristics in people with type 1 diabetes. Diabetes Research and Clinical Practice 19: 139–149
Hornquist JO (1982) The concept of quality of life. Scandinavian Journal of Social Medicine 10: 57–61
Hornquist JO (1989) Quality of life: concept and assessment. Scandinavian Journal of Social Medicine 18: 69–79
Hornquist JO, Wikby A, Andersson P-O, Dufva A-M (1990) Insulin-pen treatment, quality of life and metabolic control: retrospective intra-group evaluations. Diabetes Research and Clinical Practice 10: 221–230
Ingersoll GM and Marrero DG (1991) A modified quality-of-life measure for youths: psychometric properties. The Diabetes Educator 17(2): 114–8
Jacobson AM, De Groot M, Samson JA (1994) The evaluation of two measures of quality of life in patients with type I and type II diabetes. Diabetes Care 17(4): 267–74
Karlson B, Agardh C-D (1994) Influence of intensified insulin regimen on quality of life and metabolic control in insulin-dependent diabetes mellitus. Diabetes Research and Clinical Practice 25: 111–5
Kiln MR (1995) Effects of intensive blood-glucose control (letter) The Lancet 342: 59
Naess S, Midjthjell K, Moum T, Sorensen T, Tambs K (1995) Diabetes mellitus and psychological well-being. Results of the Nord-Trondelag health survey. Scandinavian Journal of Social Medicine 23(3): 179–88
Pecoraro RE, Carter WB, Andreson E (1986) Effects of NIDDM on daily function and quality of life. Diabetes 35(suppl 1): 223A
Stewart AL (1992) Conceptual and methodological issues in defining quality of life. Progress in Cardiovascular Nursing 7(1): 3–11
Tallroth G, Karlson B, Nilsson A, Agardh C-D (1990) The influence of different insulin regimes on quality of life and metabolic control in insulin-dependent diabetics. Diabetes Research and Clinical Practice 6: 37–43
United Kingdom Prospective Diabetes Study Group (1998) Intensive blood glucose control with sulphonylureas or insulin compared with conventional treatment and risk of complications in patients with type 2 diabetes (UKPDS 33) The Lancet 352: 837–53
Wallymahmed ME, Baker GA, MacFarlane IA (1992) Quality of life assessment in diabetes: a preliminary study of young adults in Liverpool. Practical Diabetes 9(5): 193–6
Weinberger M, Kirkman MS, Samsa GP, Cowper PA, Shortliffe EA, Simel DL, Fwussner JR (1994) The relationship between glycaemic control and health-related quality of life in patients with non-insulin-dependent diabetes mellitus. Medical Care 32(12): 1173–81
Weinberger M, Kirkman MS, Samsa GP, Shortliffe EA, Landsman PB, Cowper PA, Simel DL, Feussner JR (1995) A nurse-coordinated intervention for primary care patients with non-insulin-dependent diabetes mellitus: impact on glycaemic control and health-related quality of life. Journal of General Internal Medicine 10: 59–66
Wikblad KF, Wibell LB, Montin KR (1990) The patient’s experience of diabetes and its treatment: construction of an attitude scale by a semantic differential technique. Journal of Advanced Nursing 15: 1083–91
Wikby A, Hornquist JO, Stenstrom U, Andersson P-O (1993a) Background factors, long term complications, quality of life and metabolic control in insulin dependent diabetes. Quality of Life Research 2: 281–6
Wikby A, Stenstrom U, Hornquist JO, Andersson P-O (1993b) Coping behaviour and degree of discrepancy between retrospective and prospective self-ratings of change in quality of life in type 1 diabetes mellitus. Diabetic Medicine 10: 851–4

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