Diabetes PDF

Summary

This document provides an overview of diabetes, including its background, screening, diagnosis, and lifestyle modifications. It covers treatment goals, various types of tests, and lifestyle measures to help lower blood glucose.

Full Transcript

ENDOCRINE CONDITIONS

CHAPTER 44
DIABETES
BACKGROUND
Diabetes is a common condition in the United States, affecting > 30
million Americans (just over 1 in 10). The central problem in all types
of diabetes is that blood glucose (BG) remains high (hyperglycemia}
due to dec1•eased insttlin secretion from the pancreas, decreased
insulin sensitivity (i.e., how responsive cells are to insulin} or both.
Chronic hyperglycemia can lead to damage throughout the body,
including organ and nerve damage.
Patients with diabetes have abnormalities in how insulin is produced
and used in the body. Insulin is a hormone produced by beta-cells (also
called islet cells} in the pancreas. It is responsible for moving glucose
out of tl1e blood and into body cells to be used as energy. The glucose is
either moved to muscle cells (primarily} for immediate use, or stored
for later use by liver cells (as glycogen, the quick glucose reserve} or
adipose (fat) cells.
Insulin is counter-balanced by glucagon; they have opposite effects, as
shown in the diagram below. Glucagon is produced by alpha-cells in
the pancreas and works when BG is low. Glucagon pulls glucose back
into the circulation by releasing glucose from glycogen. If glycogen is
depleted, glucagon will signal fat cells to make ketones as an alternative
energy source.
Insulin

Fat Cell

docks to insulin
receptor, which
enables glucose to

enter muscle cells
-.....___

• • •
- .
o0 Glucose
• - - - - Glucagon
o In the Blood •
signals muscle
0
O (from Food) O

•

•

•

•

•

~f)~o~e~ b:st

into glucose

Glucagon
signals FFAs
to make

ketones,
as alternative

Insulin

signals liver cells

energy source

to store glucose

as glycogen

Glucagon
signals liver cells
to release glucose

612

from glycogen

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44

I DIABETES

SCREENING
Risk for diabetes increases with ~- Everyone, even those
with no other risk factors, should be tested beginning at 45
years old.
All asymptomatic children, adolescents and adults who are
overweight (BMI ;:: 25 or :2: 23 in Asian-Americans) with at
least one other risk factor (e.g., physical inactivity) should be
tested. If the result is normal, repeat testing every 3 years.

Typically, the AlC is measured with a blood sample sent to a
lab. Point-of-care AlC test kits provide immediate results and
can be used by prescribers or patients. Patients can measure
their own BG using a glucose meter or with a continuous
glucose mon.itoring (CGM) device (discussed later).

Testing Frequency
Glycemic control (AlC or another test) should be measured:
Quarterly (every 3 months) if not yet at goal
Biannually (every 6 months, or twice per year) if at goal

DIAGNOSIS
There are three types of tests used to identify if prediabetes
or diabetes is present:

Interpreting the A1C with the eAG

1. HemoglobinAlC (or simply AlC) indicates the average BG
over approximately the past 3 months.

It can be difficult to understand how an AlC value correlates
with BG values measured on a glucose meter. The estimated
average glucose (eAG) is an interpretation of the AlC value
that makes it appear similar to a glucose meter value.

2. Fasting plasma glucose (FPG) gives the BG at that moment,
and is taken after fasting for;:: 8 hours.

An AlC of 6% is equivalent to an eAG of 126 mg/dL. Each
additional 1% increases the eAG by-28 mg/dL.

3. The OGTT determines how well glucose is tolerated by
measuring the BG level 2 hou rs after drinking a liquid that
is high in sugar (glucose).
No single test is preferred. The criteria for diagnosing
diabetes are shown in the Study Tip Gal below. A positive test
should be confirmed with a second abnormal test result from
either the same sample or a new sample, unless there is a clear
clinical diagnosis (e.g., classic symptoms of hyperglycemia
plus a random BG ;:: 200 mg/dL).

OGTT,

A1C(%)

FPG (mg/dl)

126 .

Diabetes
Prediabetes

II

2-hr BG (mg/dl)

~200
'I

••

TREATMENT GOALS
The treatment goals for AlC, preprandial glucose (before
meals) and postprandial glucose (PPG, which is BG measured
after eating) are shown in the Study Tip Gal below.

Example: an AlC of 7% is 126 + 28 =154 eAG.

LIFESTYLE MODIFICATIONS
Lifestyle modifications, used alone or in combination with
medications, are an essential component of all diabetes care
plans. The modifications and goals listed below help lower
BG, blood pressure and cholesterol.

Weight Loss
Goal waist circumference is < 35 inches for females and
< 40 inches for males.
Overweight or obese patients should be encouraged to lose
> 5% of their body weight. Medications and/or surgery may
be needed to achieve this (see Weight Loss chapter).

Individualized Medical Nutrition Therapy
Consume natural forms of carbohydrates and sugars (i.e.,
from vegetables, fruits, whole grains, legumes, dairy).
Avoid alcohol or drink in moderation.
• Patients with TlD should use carbohydrate-counting,
where the prandial (mealtime) insulin dose is adjusted
to the carbohydrate intake. A carbohydrate serving is
measured as 15 grams, which is approximately one small
piece of fruit, 1 slice of bread or 1/, cup of cooked rice/pasta.

Physical Activity
Perform at least 150 minutes of moderate-intensity aerobic
activity per week spread over at least 3 days.
Not
Pregn11nt

Pregnant
'An A1C goal of< 6.5% may be acceptable, if it can be reached without
significant hypoglycemia. A less-stringent goal of< 8% may be appropriate
(e.g., if severe hypoglycemia, or with a limited life-expectancy).
614

Reduce sedentary (long hours of sitting) habits by standing
every 30 minutes, at a minimum.

Smoking Cessation
Encourage all patients who smoke to quit (see Tobacco
Cessation chapter).

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COMPREHENSIVE CARE
In addition to glycemic control, treatment is aimed at
preventing the long-term complications of diabetes. Left
untreated, diabetes damages nearly all parts of the body.
Complications are categorized as microvascular (small
vessel) or macrovascular (large vessel), as shown in the Study
Tip Gal to the right.

I

Autonomic neuropathy

~i:_astroparesis, loss of bladder
L
ntrol, erectile dysfunction)

Coronary artery disease
(CAD), including Ml
Cerebrovascular disease,
.
including stroke (CVA)

--

Peripheral artery disease (PAD)
'Macrovascular disease is
the same as atherosclerotic
cardiovascular disease (ASCVD)

Statin Treatment

If allergy: use clopidogrel 75 mg/day.

High-intensity statin (atorvastatin 40-80 mg or
rosuvastatin 20-40 mg daily) for:

Not recommended for primary prevention (in most); the risk of
bleeding is about equal to the benefit. Can consider if high risk.

Diabetes + ASCVD

CAD/PAD: aspirin + low-dose rivaroxaban can be added.

Age 50-75 years with multiple ASCVD risk factors

Used in pregnancy to .J, risk of preeclampsia.

T2D: eye exam with dilation at diagnosis.

Disease*

Peripheral neuropathy (i.e., loss
of sensation, often in the feet),
i risk of foot infections and
amputations

Aspirin 75-162 mg/day (usually given as 81 mg/day)~
recommended for ASCVD secondary prevention (e.g., post-Ml).

Diabetic Retinopathy

Macrovascular

Retinopathy
Diabetic kidney disease
(i.e., nephropathy)

Diabetes is the top cause of lower-extremity amputations,
kidney failure and blindness. The primary cause of death is
cardiovascular disease, which occurs at a 2 - 4 times higher
incidence than in the general population.
The American Diabetes Association (ADA) provides
recommendations for monitoring, preventing and treating
complications of uncontrolled diabetes (see diagram below).

Microvascular Disease

•

If retinopathy, repeat annually. If not, repeat every 1-2 yrs.

Moderate-intensity statin for:
Diabetes + age 40- 75 years (no ASCVD)
Diabetes + age < 40 years + ASCVD risk factors
Add-On Treatment (to Maximally Tolerated Statin)

Ezetimibe if ASCVD 10-yr risk> 20%.
lcosapent ethyl (Vascepa) if LDL is controlled but TGs are
13S-499 mg/dl.
Required, in addition to all childhood vaccines:

Monitoring: lipid panel annually and 4-12 weeks after
starting a statin or increasing the dose.

Hepatitis B virus (HBV) series.
Influenza, annually.
Pneumovax 23: 1 dose between ages 2-64, and another
dose at age 2 65.

Annually: a lO·g monofllamenl test and 1 other test
(e.g., pinprick, temperature, vibration) to assess sensation
(feeling).

Blood Pressure Control

I

•

< 140/90 mmHg acceptable if ASCVD risk < 15%.

No albuminuria': thiazide, CCB, ACE inhibitor or ARB ...
Albuminuria: ACE inhibitor or ARB.

refer to podiatrist.

CAD: ACE inhibitor or ARB.

Treatment options: pregaballn. dulo><etlne or gabapentin.

Foot Care Counseling
Every day: wash, dry and examine feet. Moisturize the top
and bottom of feet, but not between the toes.
Each office visit: take off shoes to have feet checked.
Annual foot exam by a podiatrist (for most).
Trim toenails with nail file; do not leave sharp edges from
the clipper.
and shoes. ~

< 130/80 mm Hg (esp. if ASCVD or 10-year risk 2 15%)

Treatment

Comprehensive foot exam at least annually. If high-risk,

Wear ~

BP Goal

feet when sitting.

•I

'Albuminuria is either a urine albumin 2 30 mg/24 hours or
a urine albumin-to-creatinine ratio (UACR) 2 30 mg/g
'*If pregnant - !!£ ACE inhibitor, ARB or any other RAAS drug

Diabetic Kidney Disease
Check urine albumin and eGFR:
Annually if normal kidney function.
Twice yearly if reduced kidney function (eGFR 30-60 ml/
min/1.73 m2 or urine albumin 2 300).
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I DIABETES

NATURAL PRODUCTS
Natural products are commonly used for T2D, with low or minimal efficacy. Products used to decrease BG include cassia
cinnamon, alpha lipoic acid, clll'omium, magnesium and Panax/American ginseng. Most patients will still require the use of
prescription drugs.

TREATMENT FOR TYPE 2 DIABETES
The goals of treatment are to maintain BG levels in the target range (while avoiding hypoglycemia) and to reduce long-term
complications of hyperglycemia. The ADA guidelines provide recommendations for initial treatment and add-on therapy
(see Study Tip Gal below). Metformin is the first-line treatment; it should be used indefinitely unless contraindications are
present or it is not tolerated. A second drug, from a different class, is recommended in the following instances:
Start two drugs at baseline if the AlC is 8.5 -10%.
Start two drugs at baseline regard.less of AlC if the patient has ASCVD, heart failure or chronic kidney disease. A drug with
proven benefit for these conditions should be used (see below).
• Add on a second drug if the AlC l'emalns above goal on metformin. In this case, treatment is driven by patient-specific
factors (e.g., cost, risk of hypoglycemia and weight). Continue adding medications in this way until the AlC goal is met.
Insulin can be used initially if hyperglycemia is severe (AlC > 10% or BG> 300 mg/dL), see Insulin section.

TREATMENT ALGORITHM

(

FirstDrug

J

Metformin + Lifestyle Changes

1
A1C ar.10\le goal

Reg;itdlriSS of A.1C

(

Second Drug

l

ASCVD or high risk'

HF

CKD

No ASCVD, HF or CKD

l

l

l

l

SGLT2l
with benefit'

SGLT21" or GLP·1a

Gl?· la

Qr SGLT2.i
with b(!l'efit'

wilh beoefit r

n-

Allvqass

Con'Stder hyp0j]ycemia risk.
wewht kl>,s/g;iTn poll!ntlal, co$.l

Besl fmr hypoglytemia riak,
DPP-41, GLP•1~ SGLT21, TZD
Best for y;,t!l&hl los . GLP·1a orSGLT21
Best for cost: SU or TZD

(

Third Drug

J

l

If A1C above goal

Atrydass

lfA1Cabovegoal

ye

started

tSGLT2i with benefit: empagliflozin, canagliflozin or dapagliflozin
GLP-1a with benefit: dulaglutide, liraglutide, SC semaglutide
Combinations to avoid: DPP-4i + GLP-1a, SU+ Insulin

taJ @RxPrep
ASCVD = atherosc/erotic cardiovascular disease, HF= heart failure, CKD = chronic kidney disease, GLP-1a = glucagon-like peptide 1 receptor agonist, SGLT2i = sodiumglucose co-transporter 2 inhibitor, TZD = thiazolidinedione, SU= sulfonylurea, DPP-4i = dipeptidyl peptidase 4 inhibitor

*High risk: age~ 55 with coronary, carotid or lower extremity artery stenosis > 50%, or LVH
'*SGLT2i preferred for albuminuria

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NON-INSULIN MEDICATIONS FOR TYPE 2 DIABETES
BIGUANIDE
Metformin primarily works by J. hepatic glucose production, .!. intestinal absorption of glucose and t insulin sensitivity.
Metformin is first-line treatment for T2D and can be used in prediabetes. Use of metformin is dependent on eGFR.
DRUG

DOSING

SAFETY/SIDE EFFECTS/MONITORING

Metformin
(Glucophase,
Glucophase XR,
Fortamet, Glumetza,
Riomet)

IR: 500 mg daily or BID

BOXED WARNING

IR: 500,850,
1,000 mg
ER: 500, 750,
1,000mg

Riomet liquid: 500
mg/5 ml

ER: 500-1,000 mg daily with
dinner initially
Titrate weekly, usual
maintenance dose:
1,000mg BID
Max dose: 2,000· 2,550 mg/
(varies by product)

Lactic acidosis - risk i with renal impairment, radiological studies with contrast, excessive
alcohol or certain drugs (see Drug Interactions)

CONTRAINDICATIONS
eGFR < 30, acute or chronic metabolic acidosis (includes DKA)

WARNINGS
Not recommended to start if eGFR 30-45; reassess if already taking and eGFR falls< 45
Vita min B12 deficiency

Give with a meal to

-l- GI upset SIDE EFFECTS
GI effects: diarrhea, nausea, flatulence, cramping; usually transient (resolve over time)

NOTES

-l- A1C 1-2%, weight neutral, no hypoglycemia
ER: swallow whole; can leave a ghost tablet (empty shell) in the stool
eGFR units: mL/min/1.73 m'

Metformin Drug Interactions
Intravascular iodinated contrast media (used for imaging
studies) can 1 the risk of lactic acidosis. Discontinue
metformin before the imaging procedure. Metformin can
be restarted 48 hours after the procedure if eGFR is stable.

Alcohol can! the risk for lactic acidosis; excessive intake,
acute or chronic, should be avoided.
The combination of metformin and topiramate can
risk of metabolic acidosis.

t

the

SODIUM GLUCOSE CO-TRANSPORTER 2 INHIBITORS
The sodium glucose co-transporter 2 (SGLT2) protein, expressed in the proximal renal tubules, is responsible for the
reabsorption of filtered glucose. By inhibiting SGLT2, these drugs reduce reabsorption of glucose and i urinary glucose
excretion, which J. BG concentrations. SGLT2 inhibitors are dosed based on eGFR. SGLT2 inhibitor names end in "-gliflozin."
DRUG

DOSING

SAFETY/SIDE EFFECTS/MONITORING

Canagllflozln
(lnvokanal

100 mg daily prior to the first me~I
of the day; can i to 300 mg daily

CONTRAINDICATIONS

eGFR 30-59: max dose 100 mg/day
eGFR < 30: not recommended,
unless albuminuria > 300 mg/day

Dapagliflozin
(Farxisal

5 mg daily in the morning;
can i to 10 mg daily
eGFR 30-45: not recommended
eGFR < 30: contraindicated

Empagliflozln
(Jardiancel

10 mg daily in the morning;
can i to 25 mg daily
eGFR 30-44: not recommended
eGFR < 30: contraindicated

Ertugliflozin
(Steglatro)

Dialysis

WARNINGS
Ketoacidosis (can occur with BG < 250 mg/dl., D/C prior to surgery due to risk)
Genital mycotic infections, urosepsis and pyelonephritis, necrotizing fasciitis of the
perineum
Hypotension, AKI and renal impairment (due to intravascular vo ume depletion)
Canagliflozin: i risk of leg and foot amputations, higher risk with history of
amputation, PAD, peripheral neuropathy and/or diabetic foot ulcers; hyperkalemfa risk
when used with other drugs that increase potassium; risk o f ~

SIDE EFFECTS

Weight loss, T urination, 1' t hirst, hypoglycemia,

i

Mg/PO4

- - - - - - - - - - - - - - NOTES
5 mg daily in the morning;
can i to 15 mg daily

-l- A1C 0.7-1%, low hypoglycemia risk (unless used with insulin)

eGFR 30-59: not recommended
eGFR < 30: contraindicated

Ca nagliflozin, dapagllfto.:in and empagliflozin have shown reductions in HF and CKD
progression. Most renal data is with canagliflozin and dapagliflozin. Most heart failure
data is with empagliflozin and dapagliflozin.

eGFR units: mL/min/1.73 m'

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I DIABETES

SGLT2 Inhibitor Drug Interactions

i risk of intravascular volume depletion (causing
hypotension and acute kidney injury) if used in
combination with diuretics, RAAS inhibitors or NSAIDs.

Uridine diphosphate glucuronosyltransferase (UGT)
inducers (e.g., rifampin, phenytoin, phenobarbital) can J,
levels of canagliflozin; consider using 300 mg dose if used
in combination and eGFR 2': 60 mL/min/1.73 m2 •

GLUCAGON-LIKE PEPTIDE 1 AGONISTS

1

Glucagon-like peptide 1 (GLP-1) agonists are analogs of the incretin hormone GLP-1, which glucose-dependent insulin
secretion, J, glucagon secretion, slows gastric emptying, improves satiety and can result in weight loss. They are all
subcutaneous injections available in either single-dose or multidose pens, except semaglutide also comes as an oral tablet.
Some are available in combination with long-acting insulin. GLP-1 agonist names end in" -tide."
DRUG
Liraglutide
(Victoza)

Saxenda - for
weight loss

Dulaglutide
(Trulicity)

i

Exenatide (Byetta)

DOSING

SAFETY/SIDE EFFECTS/MONITORING

0.6 mg SC~ x 1 week, then i
to 1.2 mg SC daily; can i to 1.8
mg SC daily

BOXED WARNING
All (except Byetta and Adlyxin): risk of thyroid C-cell carcinomas; do not use if personal
or family history of medullary thyroid carcinoma (MTC) or with Multiple Endocrine
Neoplasia syndrome type 2 (MEN 2)

0.75 mg SC once weekly; can
to 1.5 mg SC once weekly

I

i

5 mcg SC Bl D for 1 month; can
to 10 mcg SC BID

WARNINGS
Pancreatitis (can be fatal, risk factors: gallstones, alcoholism or

i

CrCI < 30: not recommended
Exenatide ER ~

(Bydureon,
Bydureon BCise)
Lixisenatide
(Adlyxin)

Semaglutide
(Ozempic - SC,
Rybelsus - oral)

mg SC once weekly

--

CrCI < 30: not recommended
! 10 mcg SC daily x 14 days, then
• i to 20 mcg SC daily

i

TGs)

Not recomm ended in patients with severe GI disease, including gastroparesis
Bydureon: serious injection-site reactions (e.g., abscess, cellulitis, necrosis) with or
without SC nodules
Ozempic:

i

complications with diabetic retinopathy

SIDE EFFECTS
Weight lo s. nausea, vomiting, diarrhea, hypoglycemia, injection site reactions

I

NOTES
t A1C 0.5- 1.5%;

t

postprandial BG, low hypoglycemia risk

eGFR < 15: not recommended

Do not use with DPP-4 inhibitors (overlapping mechanism)

SC: 0.25 mg SC once weekly x
4 weeks, then i to 0.5 mg SC
weekly; can i to 1 mg SC weekly

Llraglutlde. dulaglutide and semaglu Ide have demonstrated ASCVD benefit

PO: 3 mg PO daily x 30 days,
then i to 7 mg daily; can i to
14mg

Byetta and Adlyxin: give dose within 60 minutes of meals; others anytime
Pen needles are not provided with Byetta, Victoza, or Adlyxin; provided with all others
(which are the weekly injections)

eGFR units: mL!min/1.73 m2 , CrCI units: ml/min

GLP-1 Agonist Drug Interactions
These drugs slow gastric emptying and can reduce the absorption of orally administered drugs. Use caution with narrow
therapeutic index drugs or drugs that require threshold concentrations for efficacy (e.g., antibiotics, oral contraceptives).
Take oral contraceptives at least one hour before exenatide or Adlyxin and at least 11 hours after Adlyxin.
Can i the INR in patients on warfarin, monitor INR.

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INSULIN SECRETAGOGUES
Sulfonylureas (SUs) and meglitinides are known as insulin secretagogues; they work by stimulating insulin secretion from the
pancreatic beta-cells to decrease postprandial BG. Meglitinides have a faster onset (15 - 60 minutes) and a shorter duration of
action compared to the SUs. Older, first generation SUs (chlorpropamide, tolazamide and tolbutamide) should not be used as
they can cause prolonged hypoglycemia. Meglitinide names end in" -glinide" and sulfonylurea names start with "Q" and end
in "-ide."

Sulfonylureas
DRUG

DOSING

SAFETY/SIDE EFFECTS/MONITORING

Gllpizide
(Glucotrol, G/ucotrol
XL, Glipizide XL)

IR: 5 mg daily, titrate to a
max dose of 40 mg/day

CONTRAINDICATIONS

Doses > 15 mg should
be divided BID
XL: 5 mg daily, titrate to
a max dose of 20 mg/day

Gllmepirlde
(Amaryl}

1-2 mg daily, titrat
max dose of 8 mg/

___
Glyburide
Micronized
glyburide
(Glynase}

__ _

Glyburide: 2.5-5 mg
daily, titrate to a max
dose of 20 mg/day

G/ynose: 1.5-3 mg daily,
titrate to a max dose of
12 mg/day

Sulfa allergy (not likely to cross-react, see Drug Allergies & Adverse Drug Reactions chapter)

WARNINGS

I

Hypoglycemia

SIDE EFFECTS
Weight gain, nausea

NOTES
J, AlC 1-2%; J, efficacy after long-term use (as pancreatic beta-cell function declines)
Glipizide IR: take 30 minutes before a meal; all other products are taken with breakfast or the
first meal of the day; may need to hold doses if N PO

Glucotrol XL is an OROS formulation and can leave a ghost tablet (empty shell) in the stool
Glimeplride, glyburide not preferred in elderly (on the Beers er terla) due to hypoglycemia risk
Patients with G6PD deficiency can be at increased risk of hemolytic anemia with sulfonylureas

Meglitinides
DRUG

DOSING

SAFETY/SIDE EFFECTS/MONITORING

Repaglinide

0.5-2 mg TIO AC
Max dose: 16 mg daily

CONTRAINDICATIONS

Nateglinide
(Star/ix)

Type 1 diabetes, OKA

Take 15-30 minutes
before meals

WARNINGS

60-120 mg TIO AC

SIDE EFFECTS

Take 1-30 minutes
before meals

Hypoglycemia, caution with severe liver/renal impairment

Weight gain, headache, upper respiratory tract infections (URTls)

NOTES
J, AlC 0.5-1.5%

Sulfonylurea and Meglitinide Drug Interactions
Insulin in combination with either SUs or meglitinides i
risk of hypoglycemia and should be avoided. Use caution
with other drugs that can decrease BG (see Hypoglycemia
section).

Gemfibrozil and clopidogrel cant repaglinide, leading to J,
BG. Repaglinide is contraindicated with gemfibrozil.
Alcohol can t the risk for delayed hypoglycemia when
taking insulin or insulin secretagogues.

SUs are CYP2C9 substrates; use caution with 2C9 inducers
or inhibitors.

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I DIABETES

DIPEPTIDVL PEPTIDASE 4 INHIBITORS
Dipeptidyl peptidase 4 (DPP-4) inhibitors prevent the enzyme DPP-4 from breaking down incretin hormones, glucagon-like
peptide 1 (GLP-1) and glucose-dependent insulinotropic polypeptide (GIP). These hormones help to regulate BG levels by
insulin release from the pancreatic beta-cells and J, glucagon secretion (which J, hepatic glucose production) from pancreatic
alpha-cells. These drugs enhance the effects of the body's own incretins. DPP-4 inhibitor names end in "-gliptin."

1

DRUG

DOSING

SAFETY/SIDE EFFECTS/MONITORING

Sltagllptln
(Januvla)

100 mg daily

WARNINGS

Llnagllptin
(Tradjenta)

Pancreatitis, severe arthralgia ijoint pain), acute renal failure, hypersensitivity reactions,
CrCI 30-49: 50 mg daily
bullous pemphigoid (blisters/erosions requiring hospitalization)
CrCI < 30: 25 mg daily
- - - - - - - Risk of heart failure seen with saxagllptin and alogllptln, but warning added for class
5 mg daily
Alogliptin: hepatotoxicity
No renal dose adjustments

- - - - - - - - - - ~ SIDE EFFECTS
Saxagliptin
(Onglyza)
Alogliptin
(Nesina)

2.5-5 mg daily
eGFR < 45: 2.5 mg daily
25 mg daily
CrCI 30-59: 12.5 mg daily
CrCI < 30: 6.25 mg daily

Generally well tolerated, can cause nasopharyngitis, URTls, UTls, peripheral edema, rash

NOTES
- - - , J, AlC 0.5-0.8%, weight neutral, low hypoglycemia risk
Do not use with GLP-1 agonists (overlapping mechanism)

1

CrC/ units: ml/min, eGFR units: mL/min/1.73 m2

DPP-4 Inhibitor Drug Interactions
Saxagliptin is a major substrate of CYP450 3A4 and P-gp.
Limit the dose to 2.5 mg with strong CYP3A4 inhibitors,
including protease inhibitors (e.g., atazanavir, ritonavir),
clarithromycin, itraconazole, ketoconazole.

Linagliptin is a major substrate of CYP3A4 and P-gp.
Linagliptin levels are J, by strong CYP3A4 inducers (e.g.,
carbamazepine, phenytoin, rifampin, St. John's wort).

THIAZOLIDINEDIONES
Thiazolidinediones (TZDs) are peroxisome proliferator-activated receptor gamma (PPARy) agonists that i perlpheral insulin
sensitivity (i uptake and utilization of glucose by the peripheral tissues, also known as insulin sensitizers). Names of TZDs
end in "-glitazone."
DRUG

DOSING

SAFETY/SIDE EFFECTS/MONITORING

Ploglltazone
(Actos)

Initial: 15-30 mg daily

BOXED WARNINGS

Max dose: 45 mg daily

Can cause or exacerbate heart failure, do not use with NYHA Class Ill/IV heart failure
Rosiglitazone: increased risk of Ml

WARNINGS
Hepatic failure. edema (including macular edema), risk of fractures
Can stimulate ovulation, which can lead to unintended pregnancy; may need contraception

Roslglltazone
(Avandla)

i

4·8 mg daily

Pioglitazone:

Max dose: 8 mg daily

SIDE EFFECTS

risk of bladder cancer; do not use in patients with a history of bladder cancer

Peripheral edema, weight gain, URTls, myalgia
Rosiglitazone:

i

LDL, HDL and total cholesterol

IJ,NOTES

AlC 0.5-1.4%, low risk of hypoglycemia

Thiazolidinedione Drug Interactions
TZDs are major substrates of CYP2C8; use caution with CYP2C8 inducers (e.g., rifampin) or inhibitors (e.g., gemfibrozil).

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OTHER MEDICATIONS
The following classes of drugs can be used in specific situations, but given their modest efficacy, side effects and/or frequency
of administration, they are not used routinely for the treatment of T2D.
DRUG CLASS
Alpha-Glucosida
Inhibitors
Acarbose (Precose)
Miglitol (Glyset)

COMMENTS

--

MOA: inhibit the metabolism of intestinal sucrose, which delays glucose absorption.

Do not cause hypoglycemia alone, but if hypoglycemia occurs due to another drug, it cannot be treated with sucrose
(present in fruit juices, table sugar or candy); glucose tablets or gel need to be purchased to treat hypoglycemia.
Each dose should be taken with the first bite of each meal.
GI side effects are common (flatulence, diarrhea, abdominal pain).

BIie Acid Binding
Resins
Colesevelam (Welchol)

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AIs o indicated for Dyslipidemia (see Dyslipidemia chapter).
Constipation is the most common side effect.

Can bind and decrease absorption of other drugs and fat-soluble vitamins (A, D, E, K).

Dopamine Agonlst
Bromocriptine
(Cycloset)

Amylin Analog

Contraindicated in patients with syncopal migraines (can cause hypotension and orthostasis) and those who are
breastfeeding (inhibits lactation).

--

Should not be used with metoclopramide or other dopamine agonists.

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Pramlintide (Symlin)

MOA: helps control PPG by slowing gastric emptying, which suppresses glucagon secretion following a meal and
satiety.

SC injection

Can be used in type 1 or type 2 diabetes, administered SC prior to each major meal. Skip dose if skipping meal.

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Contraindicated in gastroparesis.
Significant hypoglycem ia risk; must reduce mealtime insulin dose by 50% when starting.
Side effects include~- vomiting, anorexia and weight loss.

COMBINATIONS
METFORMIN + SU
Metformin/glipizide

METFORMIN + SGLT2 INHIBITOR
DPP-4 INHIBITOR+ SGLT2 INHIBITOR
Metformin/canagllflozin (lnvokamet, lnvokamet XR) Linagliptin/empagliflozin (Glyxambi)

Metformin/glyburide

Metformin/dapagliflozin (Xigduo XR)

Saxagliptin/dapagliflozin /Qtern)

Metformin/empagliflozin (Synjardy, Synjardy XR)

Saxagliptin/dapagliflozin/metformin (Qtemmet XR)
Sitagliptin/ertugliflozin (Steg/ujan)

METFORMIN + TZD
Metformin/pioglitazone (Actoplus Met)

Metformin/ertugliflozin (Segluramet)

METFORMIN + MEGLITINIDE

GLP-1 AGONIST + LONG-ACTING INSULIN

Metformin/repaglinide (PrandiMet)

Liraglutide/insulin degludec (Xultophy)
Lixisenatide/insulin glargine (Soliqua)

Metformin/linagliptin (Jentadueto, Jentadueto XR)

SULFONVLUREA + TZD

Metformin/sltagllptln (Janumet, Janumet XR)

Glimepiride/pioglitazone (Duetact)

Does not include premixed insulins - see Insulin
section

METFORMIN + DPP-4 INHIBITOR
Metformin/alogliptin (Kazano)

Metformin/ saxagliptin (Kombiglyze XR)

DPP-4 INHIBITOR+ TZD
Alogliptin/pioglitazone (Oseni)

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