Management of blood glucose in type 2 diabetes mellitus
Management of Blood Glucose in Type 2 Diabetes Mellitus CYNTHIA M. RIPSIN, MD, MS, MPH; HELEN KANG, MD; and RANDALL J. URBAN, MD University of Texas Medical Branch, Galveston, Texas Evidence-based guidelines for the treatment of type 2 diabetes mellitus focus on three areas: intensive lifestyle inter- vention that includes at least 150 minutes per week of physical activity, weight loss with an initial goal of 7 percent of baseline weight, and a low-fat, reduced-calorie diet; aggressive management of cardiovascular risk factors (i.e., hyper- tension, dyslipidemia, and microalbuminuria) with the use of aspirin, statins, and angiotensin-converting enzyme inhibitors; and normalization of blood glucose levels (hemoglobin A1C level less than 7 percent). Insulin resistance, decreased insulin secretion, and increased hepatic glucose output are the hallmarks of type 2 diabetes, and each class of medication targets one or more of these defects. Metformin, which decreases hepatic glucose output and sensitizes peripheral tissues to insulin, has been shown to decrease mortality rates in patients with type 2 diabetes and is consid- ered a first-line agent. Other medications include sulfonylureas and nonsulfonylurea secretagogues, alpha glucosidase inhibitors, and thiazolidinediones. Insulin can be used acutely in patients newly diagnosed with type 2 diabetes to normalize blood glucose, or it can be added to a regimen of oral medication to improve glycemic control. Except in patients taking multiple insulin injections, home monitoring of blood glucose levels has questionable utility, espe- cially in relatively well-controlled patients. Its use should be tailored to the needs of the individual patient. (Am Fam Physician. 2009;79(1):29-36, 42. Copyright 2009 American Academy of Family Physicians.)
T Patient information:
A handout on lifestyle changes to manage type 2 diabetes, written by the authors of this article, is provided on page 42.
Type 2 diabetes mellitus, the sixth of cardiovascular disease risk factors, and
leading cause of death in the management of blood glucose levels.7 United States, is directly respon- sible for more than 73,000 deaths LIFESTYLE CHANGES
annually and is a contributing factor in more
Lifestyle modification can help patients lose
than 220,000 deaths.1 It is the leading cause
weight and reduces the incidence of type
of kidney failure and new cases of blind-
2 diabetes in at-risk patients.8 One large
ness in adults,1 and it is a significant cause study compared usual care with an inten-of lost workforce productivity.2 More than sive lifestyle intervention.6 Although only 20 million Americans have diabetes; 6 mil-
lion of these are undiagnosed.1 Ethnic and maintained the weight loss goal of 7 percent racial minorities are disproportionately of baseline body weight, the incidence of affected.1 Derangement of glucose homeo-
type 2 diabetes was reduced by 58 percent.
stasis and the eventual development of To prevent one new case of diabetes in three diabetes is a multifactorial process involv-
years, 6.9 persons would need to undergo
ing genetics, ethnic and racial heritage, intensive lifestyle intervention.6 Lifestyle and environmental factors. Although the changes were much more effective than met-precise interplay of these factors is not yet formin (Glucophage) therapy. In a review fully understood, long-term trials have of 14 trials testing exercise interventions in provided evidence to support aggressive participants with type 2 diabetes , hemoglo-efforts to prevent and manage this disease bin A1C levels were reduced by 0.6 percent, (Table 1).3-6
and triglyceride levels and visceral adiposity were decreased independent of weight loss.9
Management of Type 2 Diabetes
These results underscore the importance of
Evidence-based guidelines for the compre-
reinforcing lifestyle goals with every patient
hensive management of diabetes focus pri-
at every visit, even if weight loss falls short
marily on lifestyle changes, management of expectations.
Downloaded from the American Family Physician Web site at www.aafp.org/afp. Copyright 2009 American Academy of Family Physicians. For the private, noncommercial
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. ian 29 Type 2 Diabetes SORT: KEY RECOMMENDATIONS FOR PRACTICE
Patients with impaired glucose tolerance should
MANAGEMENT OF CARDIOVASCULAR
be provided with counseling and instruction for
DISEASE RISK FACTORS
Multifactorial interventions to manage car-
Metformin (Glucophage) is the only medication
diovascular disease risk factors (i.e., blood
proven to reduce mortality rates in patients with
pressure, cholesterol, microalbuminuria)
in patients with type 2 diabetes have been
Acarbose (Precose) seems to reduce the risk of
shown in well-designed clinical trials to
When adding insulin to a regimen of oral
decrease mortality rates.10 Daily low-dose
medication, oral agents should be continued
aspirin is recommended for patients with
initially. Long-acting insulin should be used initially,
type 2 diabetes and coronary artery disease
typically at a dosage of 10 units per day or 0.17 to
(CAD), those older than 40 years, and those
0.5 units per kg per day, and titrated in increments of two units approximately every three days.
who have additional risk factors for cardio-vascular disease (e.g., family history of car-
A = consistent, good-quality patient-oriented evidence; B = inconsistent or limited-
diovascular disease, hypertension, smoking,
quality patient-oriented evidence; C = consensus, disease-oriented evidence, usual
dyslipidemia, albuminuria).7 Statins are rec-
practice, expert opinion, or case series. For information about the SORT evidence rating system, go to http://www.aafp.org/afpsort.xml.
ommended for patients with type 2 diabe-tes and CAD, and for patients with diabetes
Table 1. Major Trials That Form the Basis for Treatment Rationale for Type 2 Diabetes Mellitus
Sulfonylureas, insulin, or dietary intervention
Metformin (Glucophage) or dietary intervention
Secondary analysis compared metformin with
addition of metformin to sulfonylureas when participants failed treatment with sulfonylureas
Metformin, placebo, or intensive lifestyle
intervention, which included 150 minutes
of weekly exercise and a goal of 7 percent
fasting glucose level of 95 to 125 mg per dL (5.30 to 6.95 mmol per L), and glucose level of 140 to 199 mg per dL (7.75 to 11.05 mmol per L) two hours post-glucose load
BMI = body mass index; CI = confidence interval; UKPDS = United Kingdom Prospective Diabetes Study.Information from references 3 through 6.30 American Family Physician Volume 79, Number 1 V January 1, 2009Type 2 Diabetes
without CAD who are older than 40 years and have one but the studies are so heterogeneous that the expected A1C other cardiovascular disease risk factor.7 Angiotensin-
reduction attributed to any class of medication should
converting enzyme inhibitors and angiotensin receptor be interpreted with caution.15,16 For example, six trials blockers are mainstays of treatment for patients with that evaluated sulfonylureas for an average of 16 weeks micro- or macroalbuminuria.7
reported mean A1C reductions of 1.8 percent (range, 1 to 2.5 percent),15 whereas the 10-year United Kingdom
MANAGEMENT OF BLOOD GLUCOSE LEVELS
Prospective Diabetes Study reported an A1C reduction of
Insulin resistance, decreased insulin secretion, and 0.9 percent with sulfonylureas.3 This suggests that short-increased hepatic glucose output are the hallmarks of term studies may not accurately reflect long-term results. type 2 diabetes. Medications target one or more of these It is also critical to remember that the goal of treatment defects (Table 2).11-13 Average absolute reductions in A1C is not only to reduce A1C levels, but also to prevent pre-for each class of medication range from 0.5 to 1.0 percent
mature mortality and morbidity. Not all agents have been
for exenatide (Byetta), pramlintide (Symlin), and alpha-
glucosidase inhibitors to 1 to 2.5 percent for sulfonylureas
Insulin Secretagogues. Sulfonuylurea insulin secre-
and metformin.14 Reviews have reported that mono-
tagogues (e.g., glipizide [Glucotrol], glimepiride
therapy with any oral hypoglycemic agent is superior to [Amaryl]) and nonsulfonylurea insulin secretagogues
dietary management or placebo in reducing A1C values, (e.g. nateglinide [Starlix]) increase insulin secretion by
closing potassium channels on the surface of pancreatic beta cells.11 Hypoglycemia can occur with any insulin secretagogue. Sulfo-nylureas can cause weight gain; this effect is less common with nonsulfonylurea secre-tagogues. A recent review concluded that cardiovascular disease events are neither
increased nor decreased with the use of sul-
Blood pressure and lipid control greatly
fonylureas.17 There is insufficient evidence
reduce cardiovascular mortality rates in
to make any conclusions about the effects of
nonsulfonylurea secretagogues on cardiovas-
Tight blood glucose control reduces retinal
Biguanides. Metformin decreases hepatic
glucose output and, to a lesser extent, sensi-
tizes peripheral tissues to insulin.11 A review representing more than 36,000 patient-years
Metformin should be the drug of choice in
patients with type 2 diabetes, particularly
of metformin use found no increase in fatal
or nonfatal lactic acidosis.18 However, cur-
related death (P = .017) with use
rent guidelines recommend that metformin
should not be used in patients with chronic
or acute renal insufficiency, and should be discontinued when creatinine levels reach
1.4 mg per dL (120 μmol per L) in women or
1.5 mg per dL (130 μmol per L) in men. Met-
Metformin: 7.8 cases per 100 person-years
formin has been shown to decrease progres-
Lifestyle: 4.8 cases per 100 person-years
sion from impaired glucose tolerance to type
2 diabetes.6 To prevent one new case in three
years, 13.9 persons would have to be treated
with metformin.6 It is the only hypoglyce-
mic agent shown to reduce mortality rates in patients with type 2 diabetes.5
increase insulin sensitivity in peripheral tis-sues and, to a lesser extent, decrease hepatic
January 1, 2009 V Volume 79, Number 1American Family Physician 31 Type 2 Diabetes Table 2. Medications Used to Manage Blood Glucose in Patients with Type 2 Diabetes Mellitus
lin; injectable medica-tion; reduce insulin dose by 50 percent when initiating therapy
procedure if serum creatinine levels are unchanged)
congestive heart failure (New York Heart Association class III or IV); use with caution in patients with edema
CYP = cytochrome P450; NA = not applicable.*— Relative cost is based on average wholesale price for one-month supply; range of cost of all diabetic agents divided into quartiles ($ = lowest cost, $$$$ = highest cost).
‡—Not yet approved by the U.S Food and Drug Administration.
§—Brand no longer available in the United States.Information from references 11 through 13.Approach to the Patient with Type 2 Diabetes Mellitus Impaired fasting glucose (100 to 125 mg Type 2 diabetes mellitus Impaired glucose tolerance (two-hour Lifestyle intervention:
Fasting blood glucose > 250 mg per dL
Reinforce at every visit Lifestyle intervention: Lifestyle intervention: Reinforce at every visit Reinforce at every visit Begin insulin therapy
10 units per day or 0.2 units per kg per day; increase by 2 units every three days
Add short-acting pre-meal insulin as needed
Control not achieved with oral medications
Exenatide (Byetta; approved for use with
Sitagliptin (Januvia; approved for use with
Figure 1. Algorithm for management of type 2 diabetes mellitus. Information from references 7, 14, and 24.
glucose production.11 These agents will not cause hypo-
of four trials concluded that the risk of MI and heart
glycemia when used as monotherapy. A recent review of
failure are significantly increased, but overall cardiovas-
18 trials concluded that rosiglitazone (Avandia) is associ-
cular mortality rates are unaffected.13 The latter review
ated with an increased risk of myocardial infarction (MI)
was limited to trials with one or more years of follow-up,
and death from cardiovascular causes.12 Another review whereas the former review included trials with shorter
January 1, 2009 V Volume 79, Number 1American Family Physician 33 Type 2 Diabetes Table 3. Insulin and Insulin Analogues Rapid-acting insulin Intermediate-acting insulin
Smoother curve than NPH; administered once
or twice daily; available in pen form; can be kept without refrigeration for up to 42 days
Mixed insulin
Mixed insulin preparations may hinder tight
glycemic control because the ratio of the two preparations cannot be altered
follow-up periods. In a meta-analysis of 19 controlled expert opinion and have not been conclusively evalu-trials, pioglitazone (Actos) was associated with a reduc-
ated14,24 (Figure 1).7,14,24 The goal is to maintain blood glu-
tion in a composite end point of death, MI, and stroke.19
cose levels as close to normal as possible without risking
The incidence of serious heart failure was increased by significant hypoglycemia. The American Diabetes Asso-40 percent, but there was no change in cardiovascular ciation recommends an A1C goal of less than 7 percent.7 disease mortality rates.
Glycemic control requires the patient to have cognitive,
Alpha-Glucosidase Inhibitors. Alpha-glucosidase inhibi-
visual, and motor skills to monitor and manage blood
tors act at the brush border in the small intestine, inactivat-
glucose levels, and identifying and minimizing barriers
ing the enzyme that breaks down complex carbohydrates,
for effective self-management is an important first step
slowing absorption, and flattening the postprandial gly-
to setting individualized goals. There are no evidence-
cemic curve.11 Acarbose (Precose) reduces the risk of car-
based recommendations for the frequency of home
diovascular disease events, including acute MI, in patients
blood glucose monitoring except for patients adminis-
with impaired glucose tolerance or type 2 diabetes.17,20,21
tering multiple daily injections of insulin; several studies
Incretin Mimetics and Incretin Enhancers. Incretin hor-
have questioned the usefulness of home monitoring.25,26
mones stimulate glucose-dependent insulin secretion, In patients with relatively well-controlled diabetes, home decrease glucagon secretion, slow gastric emptying, and monitoring has not been associated with clinically sig-decrease appetite.11 Exenatide lowers blood glucose levels
nificant improvements in A1C levels.25,26 Monitoring can
and stimulates weight loss, perhaps by slowing gastric be a useful tool in adjusting medications in the three-emptying and producing satiety.11,22 Sitagliptin (Januvia)
month intervals between A1C measurement, but it is
has no effect on body weight.23 There are no data on the
also expensive and time-consuming, and it should be
effects of these medications on cardiovascular events.17
individualized to meet the needs of each patient. Amylin Analogues. Pramlintide is an amylin analogue
indicated for use in patients with type 1 diabetes; it is INITIAL MANAGEMENT rarely used to manage type 2 diabetes.11 When pram-
The first step in managing type 2 diabetes is to normalize
lintide is initiated, the insulin dosage should be reduced
fasting glucose levels, with weekly or monthly adjustments
by 50 percent to avoid potentially severe hypoglycemia. in the regimen.14 Metformin is a first-line consideration. There is insufficient evidence to make conclusions about
Gastrointestinal symptoms associated with its use can
the effects of pramlintide on cardiovascular disease.17
be minimized by beginning with a low dose and titrat-ing slowly. Additional agents include sulfonylureas,
Approach to the Patient
nonsulfonylurea secretagogues, thiazolidinediones, and
Algorithms for the management of blood glucose con-
alpha-glucosidase inhibitors. Any of these agents can
tain elements derived from large, well-designed clinical
be combined with another. Once fasting blood glucose
trials, but the algorithms themselves are compiled from
approaches near-normal levels, postprandial glucose is
34 American Family Physician Volume 79, Number 1 V January 1, 2009Type 2 Diabetes Creating a Sliding-Scale Insulin Regimen Sample patient
failure. However, progressive failure of the
Rapid-acting insulin: 10 units before breakfast,
beta cells often occurs even with proper diet,
8 units before lunch, and 12 units before dinner
exercise, and oral medications, so patients
should be counseled that insulin is simply
another management tool. Although insulin
is typically introduced when glucose control
is no longer possible with oral agents, it can
also be used when contraindications to oral
This means 10 g of carbohydrates will be
medications exist. Newly diagnosed patients
covered by 1 unit of rapid-acting insulin
also can benefit from acute insulin use. Pro-
units of insulin needed to cover the meal and the
longed hyperglycemia can cause glucose tox-
icity, a potentially reversible impairment in
Blood glucose before breakfast = 190 mg per dL
glucose-stimulated insulin secretion. This
glucose. Add these numbers to get the total units of
can be corrected with aggressive insulin
therapy, then oral medications can be added
3 units of rapid-acting insulin required to correct
as insulin is tapered or discontinued. Expert
opinion suggests that insulin therapy should
Current glucose – target glucose = 190 – 100 = 90
be initiated if the fasting blood glucose level
is consistently greater than 250 mg per dL (13.90 mmol per L), or if random testing
Patient plans to eat 50 g of carbohydrates at breakfast;
shows levels greater than 300 mg per dL24
5 units of insulin is needed to cover the meal
(16.65 mmol per L; Figure 17,14,24).
tion regimen, oral agents should initially
Rapid-acting insulin needed for this meal: 3 + 5 = 8 units
be continued. Long-acting insulin should be used initially, typically at a dosage of
If the patient cannot count calories, estimate the amount of carbohydrates per
10 units per day or 0.17 to 0.5 units per kg
meal (e.g., 60 g per meal). Then 6 units of insulin is required per meal to cover carbohydrates (C:I = 10; calculated above)
per day, and titrated in increments of two
units approximately every three days14,24
Premeal glucose = 70 to 100 mg per dL (3.90 to 5.55 mmol per L); no additional
(Table 3). Rapid-acting or premixed prepa-
insulin is needed to correct. Patient should take 6 units to cover meal.
rations can be added if fasting blood glu-
Premeal glucose = 101 to 130 mg per dL (5.60 to 7.20 mmol per L); 1 unit of insulin
cose levels are persistently high or if A1C
is needed to correct (CF = 30; calculated above). Patient should take 7 units total.
Premeal glucose = 131 to 160 mg per dL (7.25 to 8.90 mmol per L); 2 units of
has plateaued at about 7.5 percent, which
insulin is needed to correct. Patient should take 8 units total.
indicates that postprandial glucose lev-els are high. Adding more basal insu-lin in this setting usually will not help
Figure 2. Steps to create a sliding scale for the use of rapid-acting insu-
patients reach their target levels.24 Sliding-
lin. (CF = correction factor; C:I = carbohydrate-to-insulin ratio; TDDI =
scale doses can be set by counting carbo-
hydrate grams or by a preset scale (Figure
addressed by increasing the dose of the current medi-
2). For the latter method, one suggested regimen is to
cations or by adding additional agents. Once maximal give 90 percent of the basal dose of insulin in long-act-benefit is achieved from first-line medications, other ing form and the remainder in rapid-acting form at the agents, such as exenatide (approved for use with metformin
largest meal, then adjust the dose as necessary.24 Insulin
or sulfonylureas) and sitagliptin (approved for use with is used almost exclusively in pregnancy because of the metformin or thiazolidinediones), can be considered.
concern of teratogenicity with oral medications. INITIATING INSULIN THERAPY CHILDREN AND OLDER ADULTS
Less than 40 percent of patients with diabetes success-
As the prevalence of obesity in children has increased,
fully achieve an A1C level of less than 7 percent.24 One type 2 diabetes has also become more common. Metfor-reason for this is the reluctance of patients and physi-
min is approved for use in children 10 years and older
cians to start insulin therapy, perceiving it as a treatment
and sustained-release preparations are approved for use
January 1, 2009 V Volume 79, Number 1American Family Physician 35 Type 2 Diabetes
in persons 17 years and older who cannot maintain gly-
6. Knowler WC, Barrett-Connor E, Fowler SE, et al., for the Diabetes Pre-
vention Program Research Group. Reduction in the incidence of type
cemic control with diet and exercise.7,27
2 diabetes with lifestyle intervention or metformin. N Engl J Med.
The increased prevalence of comorbid conditions in
older adults requires careful consideration of medica-
7. American Diabetes Association. Clinical practice recommendations
tions. Serum creatinine levels are not always a reliable
2007. Diabetes Care. 2007;30(suppl 1):S1-S103.
predictor of renal insufficiency in the elderly, so metfor-
8. Norris SL, Zhang X, Avenell A, et al. Long-term, non-pharmacologic
weight loss interventions for adults with type 2 diabetes. Cochrane
min should be used with caution. The high prevalence of
Database Syst Rev. 2005;(2):CD004095.
heart failure in this population limits the use of thiazoli-
9. Thomas DE, Elliott EJ, Naughton GA. Exercise for type 2 diabetes mel-
dinediones. Older patients are likely to benefit more from
litus. Cochrane Database Syst Rev. 2006;(3):CD002968.
aggressive management of known cardiovascular disease 10. Gaede P, Vedel P, Larsen N, Jensen GV, Parving HH, Pedersen O. Multi-
factorial intervention and cardiovascular disease in patients with type 2
risk factors such as hypertension than by tight glycemic
diabetes. N Engl J Med. 2003;348(5):383-393.
control, which can increase symptomatic hypoglycemia.7
11. Goodman LS, Gilman AZ, Brunton LL. Goodman & Gilman’s The Pharmaco-logical Basis of Therapeutics. 11th ed. New York, NY: McGraw-Hill; 2005.
12. Singh S, Loke YK, Furberg CD. Long-term risk of cardiovascular events
The Authors
with rosiglitazone: a meta-analysis. JAMA. 2007;298(10):1189-1195.
CYNTHIA M. RIPSIN, MD, MS, MPH, is an assistant professor of family
13. Nissen SE, Wolski K. Effect of rosiglitazone on the risk of myocar-
medicine at the University of Texas Medical Branch in Galveston. She
dial infarction and death from cardiovascular causes [published cor-
received her medical degree from Eastern Virginia Medical School, Nor-
rection appears in N Engl J Med. 2007;357(1):100]. N Engl J Med.
folk, and her master’s degree in public health from the University of Min-
nesota School of Public Health, Minneapolis. Dr. Ripsin completed her
14. Nathan DM, Buse JB, Davidson MB, et al. Management of hypergly-
residency at Portsmouth (Va.) Family Medicine Residency Program.
cemia in type 2 diabetes: a consensus algorithm for the initiation and adjustment of therapy [published correction appears in Diabetes Care.
HELEN KANG, MD, is currently in private practice. At the time this article
2006;49(11):2816-2818]. Diabetes Care. 2006;29(8):1963-1972.
was written, she was a fellow in endocrinology and metabolism at the
15. Kimmel B, Inzucchi SE. Oral agents for type 2 diabetes: an update. Clin
University of Texas Medical Branch. She received her medical degree from
Chicago (Ill.) Medical School and completed an internal medicine resi-
16. Bolen S, Feldman L, Vassy J, et al. Systematic review: comparative effec-
dency at the University of Texas Medical Branch.
tiveness and safety of oral medications for type 2 diabetes mellitus [published correction appears in Ann Intern Med. 2007;147(12):887].
RANDALL J. URBAN, MD, is a professor of internal medicine and the
Ann Intern Med. 2007;147(6):386-399.
Edward Randall and Edward Randall Jr. Distinguished Chair in Inter-
17. Uwaifo GI, Ratner RE. Differential effects of oral hypoglycemic
nal Medicine at the University of Texas Medical Branch. He received his
agents on glucose control and cardiovascular risk. Am J Cardiol.
medical degree from Texas A&M College of Medicine, College Station.
Dr. Urban completed an internal medicine residency at the Mayo Clinic in Rochester, Minn., and a fellowship in endocrinology and metabolism at
18. Salpeter SR, Greyber E, Pasternak GA, Salpeter EE. Risk of fatal and nonfatal
lactic acidosis with metformin use in type 2 diabetes mellitus: systematic
the University of Virginia School of Medicine, Charlottesville.
review and meta-analysis. Arch Intern Med. 2003;163(21):2594-2602. Address correspondence to Cynthia M. Ripsin, MD, MS, MPH, Dept. of
19. Lincoff AM, Wolski K, Nicholls SJ, Nissen SE. Pioglitazone and risk of
Family Medicine, University of Texas Medical Branch, 301 University
cardiovascular events in patients with type 2 diabetes mellitus: a meta-
Blvd., Galveston, TX 77555 (e-mail: cmripsin@utmb.edu). Reprints are
analysis of randomized trials. JAMA. 2007;298(10):1180-1188.
20. Chiasson JL. Acarbose for the prevention of diabetes, hypertension, and
cardiovascular disease in subjects with impaired glucose tolerance: the
Author disclosure: Nothing to disclose.
STOP-NIDDM Trial. Endocr Pract. 2006;12(suppl 1):25-30.
21. Chiasson JL, Josse RG, Gomis R, Hanefeld M, Karasik A, Laasko M, for
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Cannabis and ADD The primary symptoms of the most commonly recognized combined-type of ADHD are(1) motor overactivity, (2) inattention, and (3) impulsivity (American PsychiatricAssociation, 1994). Symptoms may decrease after adolescence, although they oftenOur understanding of the pathophysiology of ADHD and themechanisms of therapeutic action of stimulants is clearly still in its infancy.