type 1 diabetes mellitus

Question 1

what is type I diabetes mellitus?

Answer 1

autoimmune condition
insulin producing beta cells of the pancreas are attacked

results in partial or complete deficiency on insulin production
causes hyperglycaemia

requires life long insulin treatment

Question 2

what are the classifications of diabetes?

Answer 2

WHO:
type I
type II
hybrid forms
other
unclassified
during pregnancy

there is a bit of a blend between type I and II.
genetic risk comes into both
but I is environmental trigger, and II is more obesity related

Question 3

why is the distinction of type I and II not that simple

Answer 3

people think you have type I from a young age, and type II when you are older and fatter.
but it isnt that easy

autoimmune diabetes leading to insulin deficiency can present later in life = LADA (latent autoimmune diabetes in adults)
and T2DM can present in childhood

people think diabetic ketoacidosis is only a feature of T1DM, but it can also be present in type 2

monogenic diabetes can present phenotypically as type 1 or 2 (eg. MODY)

diabetes may present following pancreatic damage or other endocrine disease

Question 4

when is type 1 diabetes usually diagnosed?

Answer 4

usually during childhood or early adulthood

but it is now shown that it can present through any decade of life

more difficult to diagnose type 1 later in life as many more people are presenting with type 2 then

Question 5

what are the stages of development of type 1 diabetes? (C-peptide)

Answer 5

genetic predisposition -> potential precipitating event

overt immunological abnormalities - normal insulin release

progressive loss of insulin release - but glocose levels are normal

overt diabetes - c peptide is present still (it is mostly here that T1DM is diagnosed)

no C-peptide present

beta cell mass is constant during the first phase, but after the precipitating event, beta cell mass constantly drops till it is so low there is no insulin production

Question 6

what is C-peptide?

Answer 6

endogenous insulin usually exists as proinsulin

it is then cleaved

this forms C-peptide and insulin

C peptide levels are what is measured

Question 7

what is the second representation of stages of development of T1DM? (autoantibodies)

Answer 7

genetic risk

immune activation

immune response - development of a single autoantibody

stage 1 - normal blood sugar, more types of autoantibody

stage 2 - abnormal blood sugar, more autoantibodies

stage 3 - clinical diagnosis

stage 4 - long lasting T1DM, by now the immune attack has subsided as most beta cells have been destroyed (so fewer immune cells)

these autoantibodies can be measured to detect T1DM

Question 8

why is the immune basis of T1DM important?

Answer 8

consider increased prevalence of other autoimmune diseases

risk of autoimmunity in relatives

more complete destruction of beta cells

autoantibodies can be used clinically

immune modulation offers the possibility on new treatments! (not there yet though)

Question 9

what is an overview of the immunology of T1DM?

Answer 9

involves both innate and adaptive immune system

1. presentation of auto-antigen to autoreactive CD4+ T lymphocytes
2. CD4+ cells activate CD8+ T lymphocyes
3. CD8+ cells travel to islets and lyse beta cells expressing the auto-antigen
4. exacerbated by release of pro inflammatory cytokines
5. underpinned also by defects in regulatory T cells that fail to suppress autoimmunity

Question 10

are all beta cells destroyed in people with T1DM?

Answer 10

in many people yes

but in some people there are still some remaining that produce small amounts of insulin
but not enough to fully compensate for insulin resistance, so insulin therapy is still needed

Question 11

what allele effects the presence of T1DM?

Answer 11

HLA-DR allele

it doesnt increase or decrease risk overtly.
change in risk depends on the locus of the allele

this was discovered from GWAs

Question 12

what is the role of environmental factors in T1DM?

Answer 12

multiple factors implicated, but no causality has been established

eg:
enteroviral infections (eg. coxsackie virus, corona?)
cows milk protein exposure
seasonal variation (lower in summer)
changes in microbiota

Question 13

what is the significance of pancreatic auto-antibodies in T1DM?

Answer 13

detectable in the serum of people with T1DM at diagnosis
but not needed for a diagnosis in most cases (only when not sure)

eg.
insulin antibodies (IAA)
glutamic acid decarboxylase(GADA) - widespread neurotransmitter
insulinoma-associated-2 autoantibodies (IA-2A)-zinc-transporter 8

Question 14

what is the presentation of T1DM?

Answer 14

symptoms:
polyuria
polydipsia
nocturia
blurred vision (osmotic shifts in lens)
recurrent infections eg. thrush
weight loss
fatigue

signs:
dehydration
cachexia (fat and muscle wasting)
hyperventilation
smell of ketones
glycosuria
ketonuria

Question 15

what is the diagnosis of T1DM based on?

Answer 15

clinical features and presence of ketones

Question 16

what are the effects of no insulin?

Answer 16

muscle: stimulates breakdown to form amino acids
liver: increased hepatic glucose output to form glucose
adipocytes: stimulates lipolysis to form glycerol and NEFA

Question 17

what is the mechanism behind the formation of ketone bodies in T1DM?

Answer 17

NEFA enters the liver
glucagon (in lack of insulin) stimulates the reaction turning fatty acetyl CoA into:
acetyl CoA
acetoacetate
acetone + 3 OH-B

these are ketone bodies (these are acidic, and turn the blood acidic)

Question 18

what are the aims of treatment of T1DM?

Answer 18

people with T1DM require insulin for life

aims:
maintain glucose levels without excessive hypoglycaemia
restore a close to physiological insulin profile
prevent acute metabolic decompensation (ketoacidosis)
prevent microvascular and macrovascular complication

Question 19

what are the complications of T1DM?

Answer 19

of hyperglycaemia:
acute - diabetic ketoacidosis
chronic-
microvascular;
retinopathy, neuropathy (feet), nephropathy
macrovascular;
ischaemic heart disease, cerebrovascular disease, peripheral vascular disease

of treatment:
hypoglycaemia

Question 20

how is T1DM managed?

Answer 20

insulin treatment 
dietary support
structured education
technology
transplantation

it is self managed

Question 21

what is the physiological insulin profile?

Answer 21

basal insulin has a flat profile (not zero, just level)

prandial peaks at each meal -
this has two phases

insulin is never completely suppressed (if it does, ketones start to be produced)

Question 22

what is the insulin profile of a typical basal bolus regime?

Answer 22

one long acting at start of day - keeps insulin levels at never zero

three short acting during mealtimes

Question 23

what is insulin pump therapy?

Answer 23

continuous delivery of short acting insulin analogue via pump

delivery of insulin into subcutaneous space

programme the device to deliver fixed units per hour throughout the day.
actively bolus for meals

Question 24

what is the insulin profile from a pump like?

Answer 24

not perfect but much more similar to physiological

variable basal rates
extended boluses (more like two stages of prandial release)
greater flexibility

Question 25

what are the principles of dietary advice in T1DM?

Answer 25

dose adjustment for carbohydrate content of food
all people with T1DM should receive training for carbohydrate counting

where possible, substitute refined carbohydrate containing foods with complex carbs

all people with T1DM should be offered a structured education programme (eg. DAFNE)

Question 26

what is a closed loop/artificial pancreas?

Answer 26

combines glucose monitoring with an insulin pump

real time continuous glucose sensor ->
pump with algorithm to use glucose value to calculate insulin requirement ->
pump delivers this

however not perfect as the glucose sensor has a lag of about 15 mins so you will have high glucose for a while

Question 27

what are transplants done for T1DM?

Answer 27

islet cell transplant:
isolate human islets from pancreas of deceased donor
transplant into hepatic portal vein
requires long life immunosuppression

simultaneous pancreas and kidney transplants:
better survival of graft when transplanted with kidneys
requires life long immunosuppression

the aim of both is to restore physiological insulin production
they often result in better control

Question 28

what are the limitations of transplants in T1DM?

Answer 28

availability of donors

complications of life long immunosuppression

they may fail

Question 29

how can we monitor glucose levels?

Answer 29

capillary (finger prick) blood glucose monitoring

continuous glucose monitoring

Question 30

what is HbA1c?

Answer 30

glycated haemoglobin

reflects last 3 months (RBC lifespan) of glucose levels

glycated not glycosylated (enzymatic)

therefore linear relationship

irreversible reaction

N-terminal valine residue beta chain + glucose -> schiff base -> amadori product = HbA1c

Question 31

what is used to guide insulin doses?

Answer 31

self monitoring blood glucose results at home
and HbA1c results every 3-4 months

increase or decrease insulin dose based on these results

Question 32

what are the acute complications of T1DM?

Answer 32

1. diabetic ketoacidosis
2. uncontrolled hyperglycaemia
3. hypoglycaemia

Question 33

what is diabetic ketoacidosis (DKA)?

Answer 33

may be presenting feature of new onset T1DM

occurs in those with established T1DM due to:
acute illness
missed/inadequate insulin doses

life threatening complication
can occur in any type of diabetes

(it is why you need the long acting dose)

Question 34

what are the parameters for a DKA diagnosis?

Answer 34

pH <7.3
ketones increased(urine or capillary blood)
HCO3 < 15 mmol/L
glucose >11 mmol/L

Question 35

what is hypoglycaemia?

Answer 35

glucose < 3.6 mmol/L

kinda an inevitable feature

taking too much insulin ( or exercise or missing a meal)

may become debilitating with increasing episodes

severe hypoglycaemia: any event requiring third party assistance
eventually you may become unaware of hypos

Question 36

when does hypoglycaemia become problematic?

Answer 36

excessive frequency
impaired awareness of hypos
nocturnal hypos
recurrent severe hypos

(HbA1c may not be helpful in identifying it)

Question 37

what are the risks of hypoglycaemia?

Answer 37

seizure, coma, death
impacts on emotional wellbeing
impacts on driving
impacts on day to day function
impacts on cognition

Question 38

what are risk factors for hypoglycaemia?

Answer 38

in all people with T1DM

exercise
missed meals
inappropriate insulin regime
alcohol intake
lower HbA1c
lack of training

solve all this with either changed doses of insulin or education or transplant

Question 39

how are acute episodes of hypoglycaemia managed?

Answer 39

oral carbohydrates
IM/SC glucagon
IV glucose

all this depends on state of the person having a hypo