Categorieën: Alle - treatment - radiation - hormones - medications

door Kalyn Wright 2 jaren geleden

98

PITUITARY DISORDERS

The text focuses on the treatment options for individuals with GH-secreting adenomas and other related conditions. It highlights both pharmacologic and non-pharmacologic approaches, noting that transsphenoidal surgical resection is the preferred treatment for GH-secreting adenomas.

PITUITARY DISORDERS

Hyperprolactinemia summary

GH deficiency summary

GH excess summary

*PHARM

*Cabergoline
DOC for management of prolactinomas
CANT BE USED IN PREGNANCY
superior efficacy, besster GI ADE, less frequent dosing
DOC for fertility or pregnancy

NON-PHARM

Radiation
ONLY IN CONJUNCTION WITH SURGERY
Transsphenoidal surgery
reserved for patients who are refractory to or cannot tolerate dopamine agonists, or large tumor that could cause severe compression of adjacent tissues
*less affective than medical therapy with dopamine agonist for sx control!!

For drug induced hyperprolactinemia, medical therapy with dopamine agonists can be considered if a therapeutic alternative does not exist

GOALS

correction of visual defects (macroadenomas)
tumor shrinkage (macroadenomas)
re-establish gonadotropin secretion
restore fertility, and reduce risk of osteoporosis
normalize serum prolactin

DX Criteria

IDENTIFY UNDERLYING CAUSE

CT or MRI to determine presence of tumor
presence of hypothyroidism, renal failure, hepatic dysfunction
obtain med history
check multiple serum prolactin levels in pts w/ modest elevations

SERUM PROLACTIN > 25 mcg/L OBSERVED ON MULTIPLE OCCASIONS

clinical sequelae (downstream effects)

increased risk of ischemic heart disease if left untreated
significant risk for development of osteoporosis
normal values
levels do not typically rise to > 150 mcg/L in drug induced disease

if > 150 probably due to tumor

males: <15 mcg/L

non-pregnant females: < 25 mcg/L *menstrual irregularities seen at > 60 mcg/L

pregnant females: 34-386 mcg/L

fasting prolactin serum concentrations at rest > 25 mcg/L (elevated)

Signs/Symptoms

males: decreased libido, infertility visual loss
females: oligomenorrhea, amenorrhea, galactorrhea (nipple discharge), infertility
sx related to local effects of prolactin-secreting tumor (HA, visual disturbances) resulting from tumor compression of optic chiasm

background

other etiologies

unable to determine cause: idiopathic hyperprolactinemia
renal or hepatic impairment causing decreased clearance of prolactin
increased TRH in hypothyroidism
CNS lesions physically compress pituitary stalk and interrupt tonic hypothalamic dopamine secretion

usually effects women of reproductive age

most common causes

drug induced
Prolactin Stimulators

Methyldopa, Reserpine, SSRIs, 5-HT1 receptor agonists (triptans), Estrogens, Progestins, Protease inhibitors, GnRH analogs, Benzodiazepines, TCAs, MAOI, opioids, cocaine

Verapamil
Dopamine antagonists

Domperidone

Metoclopramide

Phenothiazine

Antipsychotics

prolactin secreting benign pituitary tumors (prolactinomas)

persistently elevated serum prolactin

recombinant GH in ADULTS

fixed dosing

avoid GH therapy in adults EXCEPT AS REPLACEMENT FOLLOWING PITUITARY GLAND REMOVAL

ADE: fluid retention, carpal tunnel arthralgia/myalgia, injection site pain, hyperglycemia

BEERs List

efficacy: decrease body fat increase muscle mass, improve exercise capacity

recombinant GH in CHILDREN

ADE (rare): intracranial HTN, slipped capital femoral epiphysis, scoliosis progression

Responders

continue tx until satisfactory adult height or growth velocity has decreased < 2-2.5 cm/year after pubertal growth suprt

monitoring: blood glucose, BP

non responders

if growth rate < 2-2.5 in 1 year
DOUBLE DOSE FOR 6 MONTHS

if still no satisfactory response, dc therapy

AGENTS (contain somatropin)

Zorbtive

Tev-Tropin

Serostim

Saizen

Omnitrope

Nutropin AQ

Norditropin

Humatrope

Genotropin

Recombinant insulin-like growth factor-1

Mecasermin (Increlex)
ADE: hypoglycemia
pregnancy category C
WEIGHT BASED DOSING
increase growth velocity in children with short stature who have low IGF-1 AND resistance to GH
ONLY INDICATED FOR TREATMENT OF SHORT STATURE DUE TO SEVERE PRIMARY IGF-1 DEFICIENCY

Goals

adults: increase muscle mass and reduce adiposity
children: achieve normal adult height

initiate ASAP

Recombinant GH

1 mg contains 2.6 IU of GH
potency is expressed as international units/mg
dosing is WEIGHT BASED
SC or IM injections
mainstay of therapy

Clinical Presentation

Factors to consider for DX

pubertal stage: Tanner Scale
percentile of anthropometric measurements
growth velocity
bone age
provocation test

Lab Tests

+/- loss of other pituitary hormones (hypoglycemia or hypothyroidism)
+/- reduced IFG-1 and binding protein
peak GH concentrations < 10 mcg/L during a 2 hour period following a GH provocation test (subnormal response)
provocative stimuli to induce GH secretion: insulin, clonidine, L-dopa, arginine, glucagon, GHRH

Signs

central obesity, prominence of forehead, immaturity of face
average birth rate
delayed skeletal maturation
reduced growth velocity

Physical height is >2 SD below population mean

DOPAMINE AGNOIST

Contraindications: - ischemic heart disease - peripheral vascular disease - uncontrolled HTN

Bromocriptine monitor: orthostatic HOTN

Cabergoline monitor: increased LFTs (check monthly x 6 months)

Drug-Drug interactions - ritonavir - indinavir - ketoconazole - irtaconazole - clarithromycin

take with food to improve GI sx

efficacy: improvement in s/sx and random GH < 1mcg/L after 4-8 weeks

Agents

GH receptor Antagonist

Pegvisomant

increased LFTs (check monthly for 6 months then q6 months) *dc if transaminases > 3x ULN

diarrhea

USE OF GH VALUES FOR TITRATION IS NOT HELPFUL!!
DOES NOT INHIBIT GH PRODUCTION BECAUSE IT BLOCKS GH RECEPTORS (DOES NOT DECREASE TUMOR SIZE)
use if high IGF-1 levels and refractory to somatostatin analogs

Somatostatin Analog MOA: mimic endogenous somatostatin's inhibition of GH secretion

Pasireotide
Drug-Drug Interactions

- concominant cispride - dronedar - pimozide - thioridazine

ADE: higher incidence of hyperglycemia
most effective
Lanreotide
ADE: same as octreotide
Octreotide- moderate to severe DOC
ADE

cholelithiasis

hyper OR hypoglycemia

injection site reaction

N/V/D/GI cramps (subsides 2 weeks after tx)

Drug-Drug interactions

cyclosporine

BB and CCB

formulations

Long Acting Release (LAR)- IM injection *use for adherence

Immediate Release (IR)- SQ injection

Dopamine Agonist MOA: paradoxical reduction in GH production

*Cabergoline (1st choice)
Bromocriptine
preferred in pregnancy

TREATMENT

PHARMACOLOGIC

Who gets it?
preference for medical therapy
inadequate response to surgery
poor surgical candidates

NON-PHARMACOLOGIC

radiation therapy
for poor surgical candidates and those who refuse or dont respond to surgical or medical interventions
TREATMENT OF CHOICE: TRANSSPHENODIAL SURGICAL RESECTION OF GH-SECRETING ADENOMA

GOAL: GH CONCENTRATION = < 1 mcg/L after standard OGTT in the presence of normal IGF-1 concentrations

Treatment Goals

decrease mortality (CV causes)

improve clinical signs and symptoms

normalize IGF-1 concentrations

reduce GH concentrations

Clinical sequlae (downstream effects)

increased risk for cancer development

stomach
colon
esophageal

T2DM

respiratory disorders and sleep apnea

osteoarthritis and joint damage

Cardiovascular disease

left ventricular hypertrophy
cardiomyopathy
CAD
HTN

CLINICAL PRESENTATION

LAB TESTS

following oral glucose tolerance test (OGTT): elevated GH > 1mcg/L and elevated IFG-1 levels

SYMPTOMS

local effects of GH-secreting tumor: HA, visual disturbances
elevated GH and IGF-1 concentrations: excessive sweating, neuropathies, joint pain, parasthesis

SIGNS

increased hand volume, ring size, shoe, size
enlarged tongue

various dermatologic conditions

coarsening of facial features

PITUITARY DISORDERS

Hyperprolactinemia

Feedback Loop
Prolactinomas produce prolactin
macroadenomas: > 10 mm in diameter; continue to grow and may invade other issues
microadenomas: < 10 mm in diameter; no increase in size
measure levels when pt is at rest in supine position or in a chair for > 2 hours
transient elevations: sleep, exercise, coitus, eating, stress
regulated by hypothalamic inhibitory effects of dopamine
concentrations peak during sleep
secreted by ANTERIOR pituitary in a pulsatile manner

GROWTH HORMONE DEFICIENCY

New Growth Hormone Dificiency Test
Macimorelin (Macrilen)
GH insufficiency
any age during growth development

acquired condition

drugs (transient): glucocorticoids, methylphenidate, dextroamphetamine

poorly controlled T2DM

hypothyroidism

psychosocial deprivation

various CNS infections

pituitary infarction

head trauma

hypothalamic/pituitary disorders

Absolute GH deficiency
6 months-3 years

conginital disorder

genetic abnormalities: GHRH deficiency, GH gene deletion

developmental disorders: pituitary aplasia, hypoplasia

short stature = patients who are > 2 SD below population mean

GROWTH HORMONE EXCESS

Gigantism
excess secretion of GH PRIOR TO EPIPHYSEAL CLOSURE IN CHILDREN
Acromegaly
caused by excess GH
MAIN CAUSE
GH-secreting pituitary adenoma
growth hormone patho
GH is secreted by ANTERIOR pituitary in a pulsatile fashion

concentration highest- night concentration lowest- waking hours

several short bursts- mostly at night

GH stimulates formation of IGF-1 in the liver and pripheral tissues
growth promoting effects of GH are mediated by IGF-1 (before and after birth) and IGF-2 (in utero)
growth hormone
secretion

peak = during first 1-2 hours of sleep

daytime pulses after: meals, exercise, stress

anabolic peptide that directly stimulates cell proliferation and growth

Anatomy and Physiology

PITUITARY GLAND "hypophysis"
POSTERIOR PITUITARY "Neurohypophysis"

2 main hormones produced: vasopressin & oxytocin

Oxytocin

contracts smooth muscle in breast during lactation uterine contractions

Vasopressin

main function

antidiuretic hormone, acts on the renal collecting ducts to conserve water

secretes hormones through direct nerve stimulation

extension of neurons of the periventricular and super optic nuclei of the hypothalamus. Cell bodies rest in the hypothalamus and end in the axon terminals that comprise the PP

ANTERIOR PITUITARY "Adenohypophysis" "Master Gland"

hormones produced

LH (lutenizing hormone)

stimulates testosterone synthesis in testes and ovulation, corpus luteum formation, estrogen and progesterone synthesis in the ovaries

FSH (follicle stimulating hormone)

sperm maturation- testes follicle growth- ovaries

TSH (thyroid stimulating hormone)

iodine uptake and thyroid hormone systhesis

ACTH (adrenocorticotropic hormone)

stimulates synthesis and secretion of adrenocortical hormones

Prolactin

in women (in the ovary) can block follicular genesis and lead to decreased estrogen & an-ovulation

promotes lactation and inhibits gonadal function

GH (somatotropin)

stimulates protein synthesis and overall growth in all body tissues

controlled by specific hypothalamic releasing and inhibitory hormones (not by direct nerve stimulation like the PP)

hormones synthesized in the hypothalamus reach the anterior pituitary via the hypothalamic-hypophyseal portal vessels
HYPOTHALAMUS
What does it regulate?

Diurnal rhythms (circadian rhythm)

CV function/Resp function

body temp

food and water intake

limbic functions (emotion,memory,arousal)

Median eminence = inferior boundary of pituitary gland that connects hypothalamus to the pituitary
neurons lead to production of: vasopressin, oxytocin, GHRH, Somatostatin
receives autonomic nervous system input from different areas of the brain