BCS III - EXAM 2 Tuberculosis PDF

Summary

This document discusses tuberculosis, covering its definition, epidemiology, and pathophysiology. It also examines risk factors, prognosis, differential diagnosis, and dental management related to tuberculosis. The document includes information on oral complications and manifestations of tuberculosis, as well as CDC and OSHA guidelines.

Full Transcript

KARLIE E

BCS III - EXAM 2

TUBERCULOSIS

DEFINITION
o Chronic pulmonary and systemic disease caused most often by
Mycobacterium tuberculosis, and the leading infectious cause of death
worldwide
o The source of transmission:
§ humans with active tuberculosis who release mycobacteria into
the sputum droplets
o Other types:
§ Oropharyngeal and intestinal tuberculosis contracted by
ingesting milk contaminated with Mycobacterium bovis
§ It is rare in countries where milk is routinely pasteurized, but it
is still seen in countries that have tuberculous dairy cows and
unpasteurized milk.

EPIDEMIOLOGY
o A total of 1.3 million people died from TB in 2022 (including 167 000
people with HIV) - TB is the leading cause of death in patients with
HIV.
o Worldwide, TB is the second leading infectious killer after COVID-19
(above HIV and AIDS).
o Multidrug-resistant TB (MDR-TB) remains a public health crisis and a
health security threat. Only about 2 in 5 people with drug resistant TB
accessed treatment in 2022.
o Ending the TB epidemic by 2030 is among the health targets of the
United Nations Sustainable Development Goals (SDGs)
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REGIONS WITH HIGHEST INCIDENCE
o SE Asia
o Africa
o The Western Pacific

TB IN THE USA
o 8,331: reported TB cases in the United States in 2022 (an incidence
rate of 2.5 cases per 100,000 persons)
o Up to 13 million: estimated number of people in the United States
living with latent TB infection
o 602 people died of TB-related causes in 2021

RISK FACTORS

o

PATHOPHYSIOLOGY
o Mycobacterium tuberculosis à
§ MTB. is a slow-growing obligate aerobe and a facultative
intracellular parasite.
§ They are rod-shaped; 0.2-0.5 µm by 2-4 µm
§ MTB. are non-spore-forming and nonmotile.
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§ The mycolic acid component of the cell wall retain red basic
fuchsin dye after acid rinsing - the basis of the acid-fast stains
used for pathologic identification.
§ Gram stain can not penetrate MTB waxy well wall – no stain
o Virulence factors à
§ Cell wall:
Their cell walls contain mycolic acid-rich, long-chain
glycolipids and phosphoglycolipids (mycocides) that
protect mycobacteria from cell lysosomal attack.
Lipoarabinomannan (LAM), a cell wall glycolipid found
induces cytokines
Sulfatides and trehalose dimycolate: triggers toxicity
§ Enzyme:
Catalase-peroxidase: resists host cell oxidative response
§ Transmission:
Exclusively airborne
From patients with active TB
o Pathogenesis à
§ 1st step is inhalation of aerosol droplets
§ Droplets are deposited in the lungs
§ 3 possible outcomes:
Clearance of bacteria
Primary active disease
Latent infection (clinical disease may occur many years
later)
o Entry into macrophages
§ M. tuberculosis enters macrophages by phagocytosis mediated
by several receptors expressed on the phagocyte, including
mannose-binding lectin and the type 3 complement receptor
(CR3)
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o Replication in macrophages
§ M. tuberculosis inhibits maturation of the phagosome and
blocks formation of the phagolysosome, allowing the bacterium
to replicate unchecked within the vesicle, protected from the
microbicidal mechanisms of lysosomes.
§ During the earliest stage of primary tuberculosis ( 35
§ Contraindicated in positive tuberculin reactions, AIDS, or
immunosuppression
§ Vaccine administration will result in a positive TST.
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PROGNOSIS
o Treatment with anti-mycobacterial drugs is 85% successful worldwide.
o 15% mortality rate worldwide
o 2.5%–5% rate of treatment failure or relapse in the United States

DIFFERENTIAL DIAGNOSIS
o Chronic bronchitis
o Atypical pneumonia
o M. avium complex (MAC) infection
o Lung mycoses
o Bronchial carcinoma
o Granulomatous diseases
§ Sarcoidosis
§ Pneumoconiosis
§ Histoplasmosis

DENTAL MANAGEMENT
o Many patients with infectious disease, including TB, cannot be
clinically or historically identified; therefore, all patients should be
treated as though they are potentially infectious, and the CDC’s
standard precautions for infection control should be strictly followed.
o The CDC places most dental facilities in the low-risk category for
potential occupational exposure to TB. In keeping with this risk
category, it recommends that each dental facility have a written TB
control protocol that includes instrument reprocessing and operatory
cleanup, as well as protocols for identifying, managing, and referring
patients with active TB and educating and training staff
o The CDC also recommends that baseline and periodic screening of
dental care workers with PPD be provided to document any recent
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exposure and that protocols be available that explain how the office
assesses, manages, and investigates dental staff members with a
positive result on PPD testing.

CDC & PREVENTION GUIDELINES: TB PRECAUTIONS FOR USE
IN OUTPATIENT DENTAL SETTINGS
o These guidelines address administrative, environmental, and
respiratory protection controls for outpatient health care settings such
as dental offices

ADMINISTRATIVE CONTROLS
o Assign responsibility for managing TB infection control program.
o Conduct annual risk assessments.
o Develop written TB infection control policies for promptly identifying
and isolating patients with suspected or confirmed TB for medical
evaluation or urgent treatment.
o Ensure dental health care personnel are educated regarding the signs
and symptoms of TB.
o Instruct patient to cover mouth when coughing and to wear a surgical
mask.
o Screen newly hired personnel for latent TB infection and disease.
o Postpone urgent dental treatment if TB is suspected or active.

ENVIRONMENTAL CONTROLS
o Use airborne infection isolation room to provide urgent treatment to
patients with suspected or confirmed TB.
o Use high-efficiency particulate air filters or UV-germicidal irradiation
in settings with a high volume of patients with suspected or confirmed
TB.
o Cover and clean and disinfect exposed patient area surfaces.
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o Sterilize patient care items

RESPIRATORY PROTECTION CONTROLS
o Use respiratory protection (at least an N95 filtering face piece
[disposable], N99 or N100 respirators) for exposed personnel when
they are providing urgent dental treatment to patients with suspected
or confirmed TB.
o Instruct TB patients to cover their mouth when coughing and to wear a
surgical mask

DENTAL MANAGEMENT FOR PATIENTS WITH A HX OF TB
o Patients with clinically active sputum-positive TB à
§ Consult with a physician before treatment.
§ Perform urgent care only; palliate urgent problems with
medication if contained facility in a hospital environment is not
available.
§ Perform urgent care that requires the use of a handpiece (in
patients older than 6 years) only in a hospital setting with
isolation, sterilization (gloves, mask, gown), and special
respiratory protection.
§ Treat those less than 6 years of age as a normal patient
(noninfectious after consultation with physician to verify status).
§ Treat patients who consistently produce negative sputum as
normal (noninfectious—verify with physician)

o Patients with a past history of TB à
§ Approach with caution; obtain thorough history of disease and
its treatment duration, with appropriate review of systems.
§ Obtain from patient a history of periodic chest radiographs and
physical examination to rule out reactivation or relapse.
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§ Consult with physician and postpone treatment with
identification of any of the following:
§ Questionable adequacy of treatment time
§ Lack of appropriate medical follow-up evaluation since recovery
§ Sign or symptom of relapse
§ Treat as for normal patient if present status is “free of clinically
active disease.”

o Patients with a (+) tuberculin test or (+) IGRA à
§ Verify evaluation by physician to rule out active disease.
§ Verify completion of drug therapy with isoniazid for 9 months.
§ Treat as normal patient.

o Patients w/ S/S suggestive of TB à
§ Refer to a physician and postpone treatment.
§ Treat as for a patient with sputum-positive status if treatment
is necessary.

DRUG CONSIDERATIONS
o Several anti-TB drugs have notable adverse effects and drug
interactions in which dentists should be knowledgeable.

o
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ORAL COMPLICATIONS & MANIFESTATIONS OF TB
o Tuberculosis manifests infrequently in the oral cavity
o Oral lesions can occur at any age but most frequently are seen in men
about 30 years of age and in children
o The classic mucosal lesion is a painful, deep, irregular ulcer on the
dorsum of the tongue
o The palate, lips, buccal mucosa, and gingiva also may be affected -
Mucosal lesions have been reported to be granular, nodular, or
leukoplakic and sometimes painless
o Extension into the jaws can result in osteomyelitis
o Involvement of the salivary glands or temporomandibular joint is rare
o Scrofula à
§ Infection of the cervical and submandibular lymph nodes with
TB.
§ The nodes become enlarged and painful, and abscesses may form
with subsequent drainage.
§ Resolution of the infectious oral lesion may result from
treatment of TB with antituberculosis drugs.

§

OSHA
o Continues to issue guidance policy to protect workers against exposure
to M. tuberculosis and continues to mandate directives as public policy
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DIABETES MELLITUS

ENDOCRINE SYSTEM CONTENTS
o Hypothalamus
o Pituitary
o Pineal gland
o Thyroid
o Parathyroid
o Thymus
o Adrenal Gland
o Pancreas
o Ovaries/Testes

HYPOTHALAMUS
o Location à
§ Base of brain near optic chiasm
o Function à
§ Links nervous system to endocrine system via the pituitary
§ Controls body temperature
§ Controls hunger
§ Controls important aspects of parenting and maternal
attachment behaviors
§ Controls thirst
§ Controls fatigue
§ Controls sleep
§ Controls circadian rhythms
§ Controls certain social behaviors, such as
§ Sexual and aggressive behaviors
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o

PITUITARY GLAND
o Location à
§ At the base of the brain, protruding from hypothalamus
o Function à
§ Controls growth
§ Controls blood pressure
§ Controls energy management
§ Controls all functions of the sex organs,
§ Controls thyroid gland
§ Controls metabolism
§ Controls some aspects of pregnancy, childbirth, and
breastfeeding
§ Controls water/salt concentration at kidneys
§ Controls temperature regulation
§ Controls pain relief

§
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PINEAL GLAND
o Location à
§ Inferior to the corpus callosum in the middle of brain
o Function à
§ Secretes melatonin, which helps the body know when it is time
to sleep

o

THYROID GLAND
o Location à
§ Anterior of the neck, inferior to the larynx
o Functions à
§ Influences metabolic rate
§ Influences protein synthesis and growth in children

o

PARATHYROID GLANDS
o Location à
§ Located on posterior thyroid gland
o Function à
§ Regulate the amount of calcium in the blood and in the bones
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§ Activates Vitamin D
THYMUS
o Location à
§ Superior ventral portion of chest, in the anterior superior
mediastinum, dorsal to the sternum, and ventral to the heart
o Function à
§ Produces white blood cells that fight infections and destroy
abnormal cells
o

ADRENAL GLANDS
o Location à
§ At the top of each kidney
o Function à
§ Regulation of blood pressure
§ Regulation of electrolyte balance
§ Regulation of metabolism
§ Suppression of immune system
§ Steroidogenesis
§ Production of catecholamines, which produce a rapid response
throughout the body in stress situations

PANCREAS
o Location à
§ Across the posterior abdomen, dorsal to the stomach
o Function à
§ Hormone production, especially those that regulate levels of
blood sugar
§ Aids in digestion (exocrine function)
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OVARIES
o Location à
§ Alongside the lateral walls of the uterus in the ovarian fossa
o Function à
§ Regulation of secondary sex characteristics in women
§ Maturation and maintenance of female reproductive organs in
their mature functional state
§ Regulate hormones, playing an important role in pregnancy and
fertility
§ Production and release of egg cells
§ Regulation of menstrual cycle

TESTES
o Location à
§ Inside the scrotum, inferior to the bulb of the penis
o Function à
§ Regulation of secondary sex characteristics in men
§ Production of testosterone
§ Production of sperm
§ Regulation of reproductive function

HORMONES
o A chemical factor that is released at one site to travel via the
circulation to a target cell some distance away for the purpose of
regulating physiology or behavior

PANCREAS
o 99% exocrine à
§ Enzymes aid in the digestion of food
§ Trypsin - proteins
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§ Chymotrypsin - proteins
§ Amylase - carbohydrates
§ Lipase - fats
§ Acini release iso-osmotic, alkaline pancreatic juices into a
system of ducts that ultimately culminates in the pancreatic
duct, which joins the common bile duct and releases into the
duodenum via the ampulla of Vater.
o 1% endocrine à
§ Islets of Langerhans
Synthesizes and releases hormones, not enzymes
Does not release into pancreatic duct system…releases
directly into blood stream
Main function of pancreatic hormones is to regulate levels
of glucose in the blood

§
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PANCREATIC HORMONES
o INSULIN à
51 AA hormone consisting of two dimers (Chain A and Chain
B) joined by a disulfide bond
Main anabolic hormone in the human body
Secreted as proinsulin, which is converted to insulin through
the removal of C-peptide, folding of the A and B chains, and
the formation of the disulfide bond
§ Insulin - location
Produced by the 𝛽-cells in the pancreatic islets of
Langerhans; 𝛽-cells represent about 50-75% of cells in each
islet.
Binds to insulin receptors on target cells; primary target cells
include hepatocytes, adipocytes, and skeletal muscle
myocytes
§ Insulin – when
In normal physiology, 𝛽-cell insulin secretion is coupled
immediately with changes in the plasma glucose level.
The secretory response is rapid (within a minute or two), and
because the half-life of insulin is about five minutes, there is
little lag time in the glucose regulatory system
§ Insulin – why
Controls blood sugar levels by helping glucose center cells
Helps turn food into energy
Regulates the metabolism of carbohydrates, fats, and
proteins by promoting absorption of glucose from the blood
into target cells
§ Insulin – how
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Binds to an insulin receptor, a transmembrane protein on
target cells. Insulin receptors are in the tyrosine kinase
(RTK) superfamily of receptors.
In skeletal muscle, converts glucose into glycogen via
glycogenesis
In adipose tissue, converts glucose into triglycerides via
lipogenesis
In liver, converts glucose into both glycogen and triglycerides

o AMYLIN à
37 AA peptide hormone
helps regulate blood glucose levels and energy balance
§ Amylin – location
Produced by and co-secreted with insulin by the 𝛽-cells in the
pancreatic islets of Langerhans
Works on nuclei in the hindbrain, the hypothalamus, and in
the periphery
§ Amylin – when
Co-secreted with insulin when nutrients enter the small
intestine at a ratio of approximately 100:1 (insulin: amylin)
§ Amylin – why
To regulate blood glucose
To reduce food intake
To affect energy homeostasis
§ Amylin – how
Slows gastric emptying
Inhibits the release of glucagon
Induces satiety after meals
Prevents post-prandial spikes in blood glucose levels
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Can form amyloid fibrils, thought to play a role in the
decline of islet cell function that accompanies type 2
diabetes

o C-PEPTIDE à
Connecting peptide
31 AA link cleaved from between the Chain A and Chain
B areas of proinsulin
§ C-peptide - location
Cleaved from proinsulin in the Golgi apparatus of the 𝛽-
cells
§ C-peptide - when
Originally produced at a 1:1 ratio with insulin although
the ratio approaches 1:5 to 1:15 (insulin: C-peptide) in the
blood due to rapid use of insulin, the longer half-life of C-
peptide (compared to insulin), and C-peptide’s clearance
in the kidney
§ C-peptide – why
Helps insulin fold correctly and form disulfide bond
§ C-peptide – how
High levels of C-peptide indicate high levels of
insulin…which can be caused by elevated blood sugar,
insulin resistance, or other factors
High insulin: C-peptide ratio can indicate an insulinoma
(a tumor producing excess insulin) or administration of
exogenous insulin
Low levels of C-peptide indicate the body is not producing
enough insulin. Causes might include type 1 diabetes
mellitus, advanced type 2 diabetes, taking too much
exogenous insulin, not eating recently
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o GLUCAGON à
29 AA hormone
Main catabolic hormone in the human body
Secreted as proglucagon, a 160 AA polypeptide precursor
that gives rise to glucagon, glucagon-like peptide 1 (GLP-
1), and other peptides
§ Glucagon – location
Produced by the 𝛼-cells in the islets of Langerhans; 𝛼-cells
represent about 25-35% of cells in each islet
§ Glucagon – when
Elevated under stress
Released when blood glucose is too low, causing
glycogenolysis in the liver
§ Glucagon – why
Increases energy expenditure
§ Glucagon – how
Raises the concentration of glucose and fatty acids in the
bloodstream

o SOMATOSTATIN à
Polypeptide hormone with two active forms: one 14 AA,
the other 28 AA
§ Somatostatin – location
Produced by the δ-cells in the islets of Langerhans; δ-cells
represent about 10% of cells in each islet
Works on 𝛼- and 𝛽-cells in a paracrine manner
Also produced by pyloric antrum and duodenum
§ Somatostatin – when
Half-life is between 1-3 mins
§ Somatostatin – why
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Inhibits secretion of insulin and glucagon
§ Somatostatin – how
Glucose stimulates δ-cells to fire action potentials and
secrete somatostatin
Produces predominantly neuroendocrine inhibitory effects

o GHRELIN à
28 AA polypeptide hormone
§ Grehlin – location
Produced by the ε-cells in the islets; ε-cells represent 12 mg/dL.
o Mnemonic for PH:
§ STONES
§ BONES
§ GROANS
§ MOANS
o STONES (renal):
§ Nephrolithiasis (calcium phosphate or calcium oxalate stones)
§ Can progress to nephrocalcinosis (deposition of Ca in renal
tubules)
o BONES (3 skeletal abnormalities seen in untreated disease):
§ Osteoporosis:
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Mostly in cortical bone of the phalanges, vertebrae, and
proximal femur
Overall increased risk of fractures
§ Brown tumors:
masses of reactive fibrous tissue with macrophages
Due to brisk osteoclast activity
Producing microfractures
Associated with increased vascularity, hemorrhage, and
hemosiderin deposition
§ Osteitis fibrosa cystica:
from severe hyperparathyroidism, due to cystic
degeneration of many brown tumors
o GROANS (GI tract):
§ Obstipation
§ Abdominal distention
§ Nausea
§ Loss of appetite
§ Weight loss
§ Gastric and duodenal ulcers
§ Pancreatitis
o MOANS (neuropsychiatric symptoms):
§ Depression
§ Personality changes
§ Lethargy
§ Coma

CLINICAL FEATURES - OTHER MANIFESTATIONS
o General or proximal muscle weakness, rapid muscle fatigue
o Cardiovascular à
§ Hypertension
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§ Vascular and valvular calcification
§ Electrocardiogram changes (atrioventricular (AV) block,
bradycardia, short QT interval, left ventricular hypertrophy)
§ Polyuria, polydipsia
o Hyperparathyroid crisis (rare) à
§ Polyuria, polydipsia
§ Nausea/vomiting
§ Loss of consciousness, somnolence, and coma

SECONDARY HYPERPARATHYROIDISM
o No unique clinical presentation
o Patients with CKD can present with bone pain
o Cases associated with vitamin D deficiency present with related
symptoms:
§ Osteomalacia, increased fractures
§ Myopathy

TERTIARY HYPERPARATHYROIDISM
o Bone pain
o Pruritus
o Fatigue/lethargy
o Increased risk of fractures

DIAGNOSTICS
o Primary à
§ Consider pHPT in patients with hypercalcemia.
§ Obtain laboratory studies to confirm hypercalcemia and assess
for elevated intact PTH levels.
§ Evaluate for features of hypercalcemia
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§ Determine surgical eligibility using detailed patient history and
laboratory and imaging findings.
§ Consider genetic counseling referral if there is suspicion for an
inherited condition based on the patient's family history.
§ Lab studies
Diagnostic confirmation: (both results must be present on
two separate occasions, ≥ 2 weeks apart)
o Serum calcium - ↑ Serum calcium
o Serum PTH - ↑ Serum intact PTH (or
inappropriately normal)
Additional studies: for patients with confirmed pHPT
o Serum creatinine and estimated GFR: to evaluate
for renal dysfunction
o 25-hydroxyvitamin D: to assess for deficiency
o Phosphate: may be low
o ALP (Alkaline phosphatase): high as a result of
bone turnover
o 24-hour urinary calcium and creatinine
o ↑ Ca/Cr clearance ratio (> 0.02): suggests pHPT and
it is a risk factor for nephrocalcinosis and
nephrolithiasis.
o ↓ Ca/Cr clearance ratio (< 0.01): suggests familial
hypocalciuric hypercalcemia, which can mimic
pHPT.
§ Routine imaging
Obtained in all patients with confirmed pHPT to evaluate
for renal and skeletal manifestations.
Skeletal evaluation
o Assess for osteoporosis, osteopenia, and fragility
fractures.
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o Preferred modality: dual-energy x-ray
absorptiometry (DXA) including vertebral fracture
assessment (VFA)
o Alternative: vertebral x-ray (to assess for spinal
fragility fractures)
Renal imaging
o Assess for nephrolithiasis and/or nephrocalcinosis.
o Options include abdominal CT without contrast,
renal ultrasound, and abdominal x-ray.
§ Additional imaging
Neck imaging
o For surgical planning to determine the location of
the abnormal glands and evaluate for concomitant
thyroid disease.
o Options include ultrasound neck and nuclear
imaging, i.e., Tc-99m sestamibi scan.
X-ray is not routinely indicated; potential findings
include:
o Decreased BMD
o Cortical thinning: especially prominent in the
phalanges of the hand; manifests as acroosteolysis
(a subperiosteal pattern of bone resorption)
o Salt and pepper skull: granular decalcification
manifesting as diffusely distributed lytic foci on
imaging of the calvarium
o Features of osteitis fibrosa cystica
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Salt and pepper skull - X-ray head (lateral view) Brown tumors - X-ray left femur (AP view) in a patient with
Numerous small well-defined lucent calvarial lesions correlate pHPT
with trabecular bone resorption (examples indicated by green Multiple circumscribed, lytic lesions (brown tumors) are seen.
overlay). The salt and pepper (or pepper-pot) appearance is a Cortical thinning accompanies some lesions, but there is no
feature of primary hyperparathyroidism. © AMBOSS cortical penetration.

o COLLEGE OF DENTAL MEDICINE

o Secondary & Tertiary Hyperparathyroidism à
§ Approach
Consider sHPT in patients with hypocalcemia and an
associated underlying condition (e.g., CKD, vitamin D
deficiency).
Consider tHPT in patients with long-standing sHPT who
develop hypercalcemia.
Imaging studies are not routinely indicated.
§ Lab studies
Diagnostic confirmation
o ↑ PTH and ↓ calcium: sHPT
o ↑ PTH (or inappropriately normal) and ↑ calcium:
tHPT
§ Additional studies:
to support the diagnosis and assess for modifiable factors
Phosphate
o ↓ Phosphate: sHPT not caused by CKD
o Normal or ↑ phosphate: sHPT caused by CKD
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o ↑ Phosphate: tHPT
↑ ALP: sign of bone turnover
↑ Creatinine and ↓ vitamin D: signs of CKD-MBD
(Chronic kidney disease–mineral and bone disorder)

DISEASE MANAGEMENT

PRIMARY
o Management should be guided by a specialist.
o Provide treatment for hypercalcemia.
o Refer all symptomatic patients and eligible asymptomatic patients for
surgical evaluation.
o For patients who do not undergo surgery:
o Start pharmacotherapy.
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o Monitor for complications.
o Surgical Therapy
§ Indications:
symptomatic patients, and asymptomatic patients who
fulfill any of the following criteria
Age < 50 years
Hypercalcemia: serum calcium level > 1 mg/dL above the
upper limit of normal
o Renal involvement
§ Estimated GFR < 60 mL/minute
§ Hypercalciuria
§ Nephrolithiasis or nephrocalcinosis on imaging
o Skeletal involvement
§ Reduced BMD (T-score ≤-2.5 at any site)
§ Vertebral fracture
o Surgical procedures
§ Minimally invasive parathyroidectomy
of the affected gland– for Solitary adenoma
§ Total parathyroidectomy
removal of all four glands
with reimplantation of half a gland in easily accessible
muscle - for Hyperplasia
§ Tumor resection
with removal of the ipsilateral thyroid lobe and enlarged
lymph nodes
in cases involving Carcinoma
o Pharmacotherapy
§ Calcimimetics (e.g., cinacalcet)
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Mechanism of action: increases the sensitivity of calcium-
sensing receptors in parathyroid glands to circulating
Ca2+ → inhibition of PTH release
§ Bisphosphonates (e.g., alendronate):
for patients with osteopenia or osteoporosis
§ Denosumab:
alternative to bisphosphonates
§ Vitamin D supplementation
For patients with vitamin D deficiency or insufficiency
o Monitoring
§ Indication
patients who do not undergo parathyroid surgery
§ Imaging studies
every 1–2 years
DXA with VFA to assess BMD
Renal imaging (e.g., abdominal CT without contrast, renal
ultrasound) to assess for nephrolithiasis and/or
nephrocalcinosis
§ Laboratory studies
yearly
Serum calcium, 25-hydroxyvitamin D, creatinine,
estimated GFR
24-hour urine calcium

SECONDARY & TERTIARY
o Treatment of the underlying condition
§ Manage chronic kidney disease” and “CKD-MBD
§ In patients with vitamin D deficiency: Supplement with vitamin
D analogues (e.g., ergocalciferol).
o Calcimimetics
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§ For treatment of sHPT in patients with CKD who are on dialysis
§ Consider for patients with tHPT
o Parathyroidectomy
§ Consider for sHPT refractory to medical therapy.
§ Mainstay of treatment for tHPT

DIFFERENTIAL DIAGNOSIS
o Primary à
§ Other causes of PTH-mediated hypercalcemia: i.e., tHPT,
familial hypocalciuric hypercalcemia
§ Causes of non-PTH-mediated hypercalcemia: e.g., hypercalcemia
of malignancy, granulomatous disorders.
o Secondary & Tertiary à
§ Other causes of hypercalcemia
§ Other causes of hypocalcemia
§ Other causes of hyperphosphatemia

DENTAL CONSIDERATIONS
o Dental changes in hyperparathyroidism include;
§ loss of the lamina dura and generalized bone rarefaction, but
giant cell lesions are late and uncommon.
o Brown tumors are indistinguishable from central giant cell
granulomas of the jaws – If giant cell lesion is found, particularly in a
middle-aged patient or in a patient with CKD, parathyroid function
should be investigated.
o LA is the main means of pain control, especially if hypertension and
arrhythmias are present.
o Conscious sedation is preferably carried out with nitrous oxide and
oxygen.
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o GA may be challenging because of cardiovascular complications and
sensitivity to muscle relaxants.
o Dental treatment in hyperparathyroidism may be complicated by renal
disease, peptic ulceration, bone fragility or pluriglandular disease.