T4 - Endocrine Assessment Flashcards

Question 1

Q

What is necessary for maintaining a normal glucose level in diabetes mellitus?

Answer

A

A balance between glucose usage and endogenous production or dietary carbohydrate intake.

Question 2

Q

Which organ is the primary source of endogenous glucose production?

Answer

A

The liver, via glycogenolysis and gluconeogenesis.

Question 3

Q

What percentage of the glucose released by the liver is metabolized by insulin-insensitive tissues?

Question 4

Q

When does a transition from exogenous glucose usage to endogenous production occur after eating?

Answer

A

2-4 hours after eating, when glucose usage exceeds production.

Question 5

Q

What is fundamental for maintaining normal blood glucose during the transition from exogenous usage to endogenous production?

Answer

A

Diminished insulin production.

Question 6

Q

What hormones make up the glucose counterregulatory system?

Answer

A

Glucagon, epinephrine, growth hormone, and cortisol.

Question 7

Q

What is the primary role of glucagon in glucose regulation?

Answer

A

Glucagon stimulates glycogenolysis and gluconeogenesis, while inhibiting glycolysis.

Question 8

Q

What is the prevalence of diabetes mellitus among adults?

Answer

A

Diabetes mellitus affects 1 in 10 adults.

Question 9

Q

What are the primary causes of diabetes mellitus?

Answer

A

It results from either an inadequate supply of insulin or an inadequate tissue response to insulin.

Question 10

Q

What are the consequences of untreated diabetes mellitus?

Answer

A

Increased circulating glucose levels leading to eventual microvascular and macrovascular complications.

Question 11

Q

What causes Type 1a diabetes?

Answer

A

Type 1a diabetes is caused by T-cell–mediated autoimmune destruction of β cells within pancreatic islets, resulting in minimal or absent circulating insulin levels.

Question 12

Q

How does Type 2 diabetes develop?

Answer

A

Type 2 diabetes results from defects in insulin receptors and post-receptor intracellular signaling pathways, and it is not immune mediated.

Question 13

Q

What percentage of all diabetes mellitus cases does Type 1 diabetes account for?

Answer

A

Type 1 diabetes accounts for 5-10% of all diabetes mellitus cases.

Question 14

Q

At what age is Type 1 diabetes usually diagnosed?

Answer

A

Type 1 diabetes is usually diagnosed before age 40.

Question 15

Q

What is the exact autoimmune cause of Type 1a diabetes?

Answer

A

The exact autoimmune cause of Type 1a diabetes is unknown.

Question 16

Q

What precedes the onset of symptoms in Type 1 diabetes?

Answer

A

A long pre-clinical period (9-13 years) of B-cell antigen production precedes the onset of symptoms.

Question 17

Q

How much B-cell function is typically lost before hyperglycemia occurs in Type 1 diabetes?

Answer

A

At least 80-90% of B-cell function is lost before hyperglycemia ensues.

Question 18

Q

What percentage of all diabetes mellitus cases does Type 2 diabetes account for?

Answer

A

Type 2 diabetes accounts for over 90% of all diabetes mellitus cases.

Question 19

Q

How has the prevalence of Type 2 diabetes changed in recent years?

Answer

A

Type 2 diabetes is increasingly seen in younger patients and children over the past decade.

Question 20

Q

How long before diagnosis is Type 2 diabetes typically present but underrecognized?

Answer

A

Type 2 diabetes is normally present 4-7 years before it is diagnosed.

Question 21

Q

What occurs in the initial stages of Type 2 diabetes?

Answer

A

Insensitivity to insulin on peripheral tissues leads to increased pancreatic insulin secretion.

Question 22

Q

What are the three main abnormalities seen in Type 2 diabetes?

Answer

A

Increased hepatic glucose release due to a reduction in insulin’s inhibitory effect on the liver, impaired insulin secretion, and insufficient glucose uptake in peripheral tissues.

Question 23

Q

What are some causes of insulin resistance in DM2?

Answer

A

Causes include abnormal insulin molecules, circulating insulin antagonists, and insulin receptor defects.

Question 24

Q

What acquired and contributing factors are associated with insulin resistance in DM2?

Answer

A

Obesity and sedentary lifestyle.

Question 25

Q

Diabetes Diagnostic Criteria chart

Question 26

Q

What are some dietary adjustments recommended for managing diabetes?

Answer

A

Dietary adjustments involve controlling carbohydrate intake, managing portion sizes, and maintaining a balanced diet.

Question 27

Q

How does exercise and weight loss benefit individuals with diabetes?

Answer

A

Exercise and weight loss can improve hepatic and peripheral insulin sensitivity, leading to better blood glucose control.

Question 28

Q

What is the primary mechanism of action of Metformin in diabetes management?

Answer

A

Metformin, a biguanide, enhances glucose transport into tissues.

Question 29

Q

What are the effects of Metformin on triglyceride (TGL) and low-density lipoprotein (LDL) levels?

Answer

A

Metformin decreases triglyceride (TGL) and low-density lipoprotein (LDL) levels.

Question 30

Q

What is the mechanism of action of Sulfonylureas in diabetes management?

Answer

A

Sulfonylureas stimulate insulin secretion and enhance glucose transport into tissues.

Question 31

Q

Why are Sulfonylureas not effective in the long term for some diabetic patient

Answer

A

Due to diabetic progressive loss of B cell function, Sulfonylureas are not effective in the long term.

Question 32

Q

What are some common side effects of Sulfonylureas?

Answer

A

Common side effects include hypoglycemia, weight gain, and potential cardiac effects.

Question 33

Q

Treatment chart

Question 34

Q

In what cases is insulin necessary for diabetes management?

Answer

A

Insulin is necessary in all cases of Type 1 diabetes (DM1) and in approximately 30% of cases of Type 2 diabetes (DM2).

Question 35

Q

What are the categories of insulin based on duration of action?

Answer

A

Insulin is categorized into rapid-acting (e.g., Lispro, Aspart),
short-acting (regular),
basal/intermediate-acting (e.g., NPH, Lente), and
long-acting (e.g., Ultralente, Glargine).

Question 36

Q

What is the most dangerous complication associated with insulin therapy?

Answer

A

Hypoglycemia is the most dangerous complication.

Question 37

Q

What factors can exacerbate hypoglycemia?

Answer

A

Exacerbating factors include alcohol (ETOH), metformin, sulfonylureas, ACE inhibitors (ACE-I’s), monoamine oxidase inhibitors (MAOI’s), and non-selective beta-blockers (BB’s).

Question 38

Q

What can repetitive hypoglycemic episodes lead to?

Answer

A

Repetitive hypoglycemic episodes can lead to “hypoglycemia unawareness,” where the patient becomes desensitized to hypoglycemia and doesn’t show autonomic symptoms. Neuroglycopenia may ensue, leading to symptoms such as fatigue, confusion, headache, seizures, coma

Question 39

Q

What is the treatment for hypoglycemia?

Answer

A

PO or IV glucose (may give SQ or IM if unconscious)

Question 40

Q

Plasma insulin levels graph and chart

Question 41

Q

What is the mortality rate associated with decompensated DM?

Answer

A

Decompensated DM carries a mortality rate of 1-2%.

Question 42

Q

In which type of diabetes is Diabetic Ketoacidosis (DKA) more common, and what often triggers it?

Answer

A

DKA is more prevalent in DM1 and is frequently triggered by infection or illness.

Question 43

Q

What happens when glucose levels exceed the renal reabsorption threshold in diabetes?

Answer

A

Elevated glucose levels surpass the renal reabsorption threshold, leading to osmotic diuresis and subsequent hypovolemia.

Question 44

Q

What metabolic coupling in the liver can result in excessive production of ketoacids during DKA?

Answer

A

The tight metabolic coupling of gluconeogenesis and ketogenesis in the liver can lead to overproduction of ketoacids during DKA.

Question 45

Q

Features of DKA chart

Question 46

Q

What is the recommended method for IV volume replacement in diabetic emergencies?

Answer

A

IV volume replacement is recommended.

Question 47

Q

What is the loading dose and infusion rate for insulin in diabetic emergencies?

Answer

A

The loading dose is 0.1 units/kg of Regular insulin, followed by a low-dose infusion at 0.1 units/kg/hr.

Question 48

Q

What electrolytes should be supplemented in diabetic emergencies?

Answer

A

Electrolyte supplements should include potassium (K+), phosphorus, magnesium (Mg), and sodium.

Question 49

Q

What caution should be exercised when correcting glucose levels in diabetic emergencies?

Answer

A

Correction of glucose without simultaneous correction of sodium may result in cerebral edema.

Question 50

Q

What are the key characteristics of Hyperosmolar Hyperglycemic State (HHS)?

Answer

A

HHS is characterized by severe hyperglycemia, hyperosmolarity, and dehydration. It typically occurs in individuals with DM2 over 60 years old. It evolves over days to weeks with persistent glucosuric diuresis.

Question 51

Q

What symptoms are associated with Hyperosmolar Hyperglycemic State (HHS)?

Answer

A

Symptoms include polyuria, polydipsia, hypovolemia, hypotension, tachycardia, and organ hypoperfusion. Hyperosmolarity can lead to coma. Patients may exhibit some degree of acidosis but not to the extent seen in DKA.

Question 52

Q

How is Hyperosmolar Hyperglycemic State (HHS) treated?

Answer

A

Treatment involves fluid resuscitation, insulin bolus and infusion, and electrolyte supplementation. The mortality rate ranges from 10-20%.

Question 53

Q

What characterizes microvascular complications in diabetes?

Answer

A

Microvascular complications involve nonocclusive microcirculatory disease with impaired blood flow autoregulation.

Question 54

Q

What are the key features of diabetic nephropathy?

Answer

A

Diabetic nephropathy affects 30-40% of DM1 and 5-10% of DM2 patients, leading to end-stage renal disease (ESRD). Kidneys develop glomerulosclerosis, arteriosclerosis, and tubulointerstitial disease. Symptoms include hypertension, proteinuria, peripheral edema, and decreased glomerular filtration rate (GFR).

Question 55

Q

How does the progression of diabetic nephropathy affect electrolyte balance?

Answer

A

When GFR falls below 15-20, kidneys no longer effectively clear potassium, leading to hyperkalemia and acidosis. ACE inhibitors can slow the progression of proteinuria and the rate of GFR decline.

Question 56

Q

What treatment options are available for end-stage renal disease (ESRD) in diabetic patients?

Answer

A

Treatment options for ESRD include hemodialysis (HD), peritoneal dialysis (PD), and kidney transplant. Combined kidney-pancreas transplant may prevent recurrent nephropathy.

Question 57

Q

What characterizes Peripheral Neuropathy in diabetes?

Answer

A

Peripheral Neuropathy typically presents as a distal symmetric diffuse sensorimotor polyneuropathy.

Starts in the toes and feet and progressing proximally. It involves the loss of large sensory and motor fibers, reducing light touch and proprioception
Loss of small nerve fibers, decreasing pain and temperature perception, leading to neuropathic pain
Ulcers can develop from unnoticed mechanical and traumatic injuries, resulting in significant morbidity from recurrent infections and amputation wounds.

Question 58

Q

What are the features and treatment options for Peripheral Neuropathy?

Answer

A

Treatment involves optimal glucose control, NSAIDs, antidepressants, and anticonvulsants.

Question 59

Q

What are the characteristics and management strategies for Retinopathy in diabetes?

Answer

A

Retinopathy is characterized by microvascular changes, including vessel occlusion, dilation, increased permeability, and microaneurysms.

Visual impairment can range from color loss to blindness.

Glycemic control and blood pressure control can reduce the progression of retinopathy.

Question 60

Q

What characterizes Autonomic Neuropathy in diabetes?

Answer

A

Autonomic Neuropathy can affect any part of the Autonomic Nervous System (ANS) and is caused by damaged vasoconstrictor fibers, impaired baroreceptors, and ineffective cardiovascular activity.

Question 61

Q

What cardiovascular symptoms are associated with Autonomic Neuropathy?

Answer

A

Cardiovascular symptoms include abnormal heart rate control and vascular dynamics, resting tachycardia, loss of heart rate variability, and progression to orthostatic hypotension and dysrhythmias.

Question 62

Q

What gastrointestinal symptoms and treatments are associated with Autonomic Neuropathy?

Answer

A

Gastrointestinal symptoms include decreased gastric secretions and motility, eventually leading to gastroparesis. Symptoms include nausea, vomiting, early satiety, bloating, and epigastric pain. Treatment involves glucose control, consuming small meals, and using prokinetics.

Question 63

Q

What cardiovascular considerations are important in autonomic neuropathy?

Answer

A

Autonomic neuropathy can lead to silent ischemia. Stress tests may be necessary for patients with multiple cardiac risk factors and poor exercise tolerance.

Question 64

Q

Why is meticulous attention to hydration and renal function crucial in autonomic neuropathy?

Answer

A

Hydration status should be carefully monitored, nephrotoxins should be avoided, and renal blood flow should be preserved to prevent complications in the renal system.

Answer 60

A

Autonomic neuropathy predisposes patients to perioperative dysrhythmias and hypotension, requiring careful management during surgical procedures.

Answer 61

A

Gastroparesis may increase the risk of aspiration regardless of NPO (nothing by mouth) status. Patients with autonomic neuropathy should avoid hypoglycemic medications and noninsulin injectables.

Answer 62

A

Insulinoma is a rare, benign pancreatic islet tumor that secretes insulin. It occurs more frequently in women than men, typically in the 50s-60s age range.

Answer 63

A

Diagnosis is based on Whipple triad: hypoglycemia with fasting, glucose levels below 50 with symptoms, and symptom relief with glucose intake.

Diagnosis is confirmed by inappropriately high insulin levels during a 48-72 hour fast.

Answer 64

A

Preoperatively, diazoxide may be used to inhibit insulin release from beta cells.

Other treatment options include verapamil, phenytoin, propranolol, glucocorticoids, and octreotide.

Surgery is curative.

Answer 65

A

Intraoperative hypoglycemia can occur, followed by hyperglycemia once the tumor is removed. Tight glycemic control is essential during and after surgery.

Answer 66

A

The thyroid gland weighs approximately 20g and consists of two lobes joined by an isthmus.

It is located anteriorly and laterally to the trachea, with the upper border just below the cricoid cartilage.

The parathyroid glands are situated on the posterior aspect of each lobe.

Answer 67

A

The thyroid gland is innervated by the adrenergic and cholinergic nervous systems, with a rich capillary network permeating the gland.

Answer 68

A

The recurrent laryngeal nerve and the external motor branch of the superior laryngeal nerve are in close proximity to the thyroid gland.

Answer 69

A

The thyroid gland is composed of follicles filled with thyroglobulin, an iodinated glycoprotein and substrate for thyroid hormone synthesis. Additionally, it contains parafollicular C cells, which produce calcitonin.

Answer 70

A

Production of normal quantities of thyroid hormones depends on the availability of exogenous iodine, primarily obtained from the diet.

Answer 71

A

Iodine is reduced to iodide in the gastrointestinal tract, rapidly absorbed into the blood, and transported into thyroid follicular cells.

The binding of iodide to thyroglobulin is catalyzed by an iodinase enzyme, yielding inactive monoiodotyrosine and diiodotyrosine.

About 25% of monoiodotyrosine and diiodotyrosine undergo coupling with thyroid peroxidase to form active triiodothyronine (T3) and thyroxine (T4).

Answer 72

A

The thyroid gland contains a large store of hormones and has a low turnover rate, which protects against depletion if hormone synthesis is impaired.

Answer 73

A

Thyroid hormones stimulate virtually all metabolic processes, including growth and maturation of tissues, enhancement of tissue function, and stimulation of protein synthesis and carbohydrate and fat metabolism.

Answer 74

A

Thyroid function is regulated by a classic feedback control system involving the hypothalamus, pituitary, and thyroid glands.

Answer 75

A

TRH, secreted from the hypothalamus, stimulates the release of TSH from the anterior pituitary. TSH binds to receptors on the thyroid cell membrane, enhancing the synthesis and secretion of T3 and T4.

Answer 76

A

Decreased TSH leads to reduced T3 and T4 synthesis, decreased follicular cell size, and decreased vascularity, while increased TSH results in increased hormone production, gland cellularity, and vascularity.

Answer 77

A

TSH secretion is also influenced by plasma levels of T3 and T4 via a negative feedback loop, ensuring proper regulation of thyroid hormone levels.

Answer 78

A

The thyroid gland has an autoregulatory mechanism that maintains consistent hormone stores, contributing to overall thyroid function stability.

Answer 79

A

The TSH assay is the best test for assessing thyroid hormone action at the cellular level. Small changes in thyroid function can lead to significant alterations in TSH secretion.

Answer 80

A

The normal range for TSH levels is 0.4-5.0 milliunits/L. Deviations from this range can indicate thyroid dysfunction.

Answer 81

A

The TRH stimulation test evaluates the functional state of the TSH-secreting mechanism and is utilized to assess pituitary function.

Answer 82

A

Other diagnostic tests include serum anti-microsomal antibodies, antithyroglobulin antibodies, and thyroid-stimulating immunoglobulins.

Thermal thyroid scans assess thyroid nodules as “warm” (normally functioning), “hot” (hyperfunctioning), or “cold” (hypofunctioning).

Answer 83

A

Ultrasound is 90-95% accurate in determining whether a thyroid lesion is cystic, solid, or mixed, aiding in the diagnosis and characterization of thyroid nodules.

Answer 84

A

Hyperfunctioning thyroid gland involves excessive secretion of active hormones, leading to a hypermetabolic state. The majority of cases are caused by one of three pathologies: Graves disease, toxic multinodular goiter, or toxic adenoma.

Answer 85

A

Symptoms are related to the hypermetabolic state and include sweating, heat intolerance, fatigue with inability to sleep. Osteoporosis and weight loss may also occur.

Answer 86

A

T3 acts directly on the myocardium and peripheral vasculature to cause cardiovascular responses, contributing to the cardiovascular manifestations of hyperthyroidism.

Answer 87

A

Graves disease is the leading cause of hyperthyroidism, affecting approximately 0.4% of the population. It typically occurs in females (7:1 ratio) aged 20-40 years.

Answer 88

A

Graves disease appears to be autoimmune, characterized by thyroid-stimulating antibodies that bind to TSH receptors, stimulating growth, vascularity, and hypersecretion. The thyroid is usually diffusely enlarged, and ophthalmopathy occurs in 30% of cases.

Answer 89

A

Diagnosis is confirmed with TSH antibodies in the context of low TSH and high T3 and T4 levels. Graves disease may present with extreme enlargement causing dysphagia, globus sensation, and inspiratory stridor from tracheal compression.

Answer 90

A

The first-line treatment for Graves disease is antithyroid drugs, such as methimazole or propylthiouracil (PTU). High concentrations of iodine reduce release of thryroid hormone and can also be used, but are typically reserved for pre-operative preparation or thyroid storm.

Answer 91

A

Beta-blockers, such as propranolol, may relieve symptoms by blocking the effects of excess thyroid hormones. However, they do not address the underlying abnormality.

Answer 92

A

Ablative therapy or surgery is recommended when medical treatment has failed. Surgery, specifically subtotal thyroidectomy, is effective and associated with a lower incidence of hypothyroidism compared to radioactive iodine therapy.

Answer 93

A

Thyroid levels should be normalized preoperatively.

Answer 94

A

Elective cases may need to wait 6-8 weeks for antithyroid drugs to take effect.

Answer 95

A

In emergent cases, intravenous beta-blockers, glucocorticoids, and propylthiouracil (PTU) are usually necessary. Additionally, evaluating the upper airway for evidence of tracheal compression or deviation caused by a goiter is important.

Answer 96

A

A thyroid storm can be precipitated by trauma, infection, medical illness, or surgery.

Answer 97

A

Surprisingly, thyroid hormone levels in a thyroid storm may not be much higher than in basic hyperthyroidism. A thyroid storm most often occurs postoperatively in untreated or inadequately treated hyperthyroid patients after emergency surgery.

Answer 98

A

The mortality rate for thyroid storm is 20%, and treatment includes rapid alleviation of thyrotoxicosis and supportive care.

Answer 99

A

Hypothyroidism or myxedema affects 0.5-0.8% of adults. Primary hypothyroidism, which accounts for 95% of cases, results in decreased T3 & T4 production despite adequate TSH levels.

Answer 100

A

The first most common cause is ablation of the gland by radioactive iodine or surgery, and the second most common cause is idiopathic, probably autoimmune, with antibodies blocking TSH receptors.

Answer 101

A

Symptoms of hypothyroidism in adults include cold intolerance, weight gain, and nonpitting edema. Associated conditions include SIADH, fluid overload, pleural effusions, dyspnea, slow GI function, and the potential for an adynamic ileus to occur.

Answer 102

A

20% of women over 60 years old have subclinical hypothyroidism, which is associated with an increased risk of coronary artery disease (CAD) if TSH is greater than 10 milliunits/L.

Answer 103

A

Secondary hypothyroidism is diagnosed by reduced levels of T3, T4, and TSH.

A TRH stimulation test confirms pituitary cause by measuring pituitary responsiveness to intravenous TRH.

In primary hypothyroidism, TRH further elevates TSH, while with pituitary dysfunction, there is no response to TRH.

Answer 104

A

Euthyroid sick syndrome is characterized by abnormal thyroid function tests in critically ill patients, showing low T3 and T4 with a normal TSH level. It is likely a response to stress and can be induced by surgery.

Answer 105

A

L-thyroxine is the drug of choice for treating hypothyroidism. For elective surgery, thyroid treatment should be initiated at least 10 days prior.

Answer 106

A

Pre-operatively, assess for airway compromise due to swelling, edematous vocal cords, or goitrous enlargement.
Expect slower gastric emptying and an increased risk of aspiration.
The cardiovascular system may be hypodynamic
Respiratory function may be compromised, and
More prone to hypothermia and electrolyte imbalances.

Answer 107

A

If emergent surgery is required, intravenous thyroid replacement along with steroids should be administered as soon as possible.

Answer 108

A

Myxedema coma is a rare, severe form of hypothyroidism characterized by delirium, hypoventilation, hypothermia, bradycardia, hypotension, and severe dilutional hyponatremia.

Answer 109

A

Myxedema coma occurs most commonly in elderly women with a long history of hypothyroidism and can be triggered by infection, trauma, cold, and CNS depressants. Hypothermia is a cardinal feature due to impaired thermoregulation.

Answer 110

A

Treatment for myxedema coma includes:
* IV L-thyroxine or L-triiodothyronine,
* IV hydration with glucose-saline solutions,
* temperature regulation,
* correction of electrolyte imbalances, and
* stabilization of cardiac and pulmonary systems.

Mechanical ventilation is frequently required. Heart rate, blood pressure, and temperature usually improve within 24 hours. The mortality rate is greater than 50%.

Answer 111

A

A goiter is the swelling of the thyroid gland due to hypertrophy and hyperplasia of the follicular epithelium.

It can be caused by a lack of iodine, ingestion of goitrogens like cassava, phenylbutazone, lithium, or a defect in the hormonal biosynthetic pathway.

Answer 112

A

In most cases, a goiter is associated with a compensated euthyroid state. Most cases are treated with L-thyroxine.

Answer 113

A

Surgery is indicated only if medical therapy is ineffective, and the goiter compromises the airway or is cosmetically unacceptable.

Answer 114

A

A history of dyspnea in both upright or supine positions is predictive of possible airway obstruction during general anesthesia.

Answer 115

A

A CT scan should be examined to assess the extent of the tumor, and flow-volume loops in the upright and supine positions will demonstrate the site and degree of obstruction.

Answer 116

A

Limitations in the inspiratory limb of the flow-volume loop indicate extra-thoracic obstruction, while delayed flow in the expiratory limb indicates intra-thoracic obstruction.

An echocardiogram in the upright and supine positions can indicate the degree of cardiac compression.

Answer 117

A

The morbidity from thyroid surgery approaches 13%. RLN injury may be unilateral or bilateral, and temporary or permanent.

Unilateral trauma can cause hoarseness but typically not airway obstruction, and function usually returns in 3-6 months.

Answer 118

A

Bilateral RLN injury is more serious, potentially causing airway obstruction and difficulty coughing, which may warrant a tracheostomy.

Answer 119

A

Hypoparathyroidism may result from inadvertent parathyroid damage, with symptoms of hypocalcemia occurring in the first 24-48 hours postoperatively.

A hematoma may lead to tracheal compression, hence a tracheostomy set should be kept at the bedside during the immediate postoperative period.

Answer 120

A

The adrenal cortex synthesizes glucocorticoids, mineralocorticoids (such as aldosterone), and androgens.

The hypothalamus releases corticotropin-releasing hormone (CRH) to the anterior pituitary, which in turn stimulates the release of corticotropin (ACTH).

ACTH stimulates the adrenal cortex to produce cortisol.

Answer 121

A

Cortisol facilitates the conversion of norepinephrine (NE) to epinephrine (EPI) in the adrenal medulla. It also induces hyperglycemia by promoting gluconeogenesis and inhibiting glucose uptake by cells.

Answer 122

A

Together, cortisol and aldosterone cause sodium retention and potassium excretion.

Answer 123

A

A pheochromocytoma is a catecholamine-secreting tumor that arises from chromaffin cells of the sympathoadrenal system.

Uncontrolled catecholamine release can result in malignant hypertension, cerebrovascular accidents (CVA), and myocardial infarction (MI).

Answer 124

A

80% of pheochromocytomas occur in the adrenal medulla, 18% in the organ of Zuckerkandl, and 2% in the neck or thorax.

Most pheochromocytomas secrete a norepinephrine to epinephrine ratio of 85:15, which is the inverse of normal adrenal secretion.

Answer 125

A

About 10% of pheochromocytomas are inherited (familial). Some pheochromocytomas secrete higher levels of epinephrine and, more rarely, dopamine.

Answer 126

A

Attacks can range from occasional to frequent, lasting between 1 minute to several hours, and may occur spontaneously or be triggered by injury, stress, or medications.

Answer 127

A

Symptoms include headaches, pallor, sweating, palpitations, and orthostatic hypotension. Cardiac complications can include coronary vasoconstriction, cardiomyopathy, congestive heart failure, and EKG changes.

Answer 128

A

Diagnosis of pheochromocytoma is made through a 24-hour urine collection for metanephrines and catecholamines. CT & MRI, along with I-metaiodobenzylguanidine (MIBG) scintigraphy, are used to help localize the tumor.

Answer 129

A

Preoperative α-blockade aims to lower blood pressure, decrease intravascular volume, allow sensitization of adrenergic receptors, and decrease myocardial dysfunction.

Phenoxybenzamine is the most frequently used preoperative α-blocker.

Answer 130

A

Tachycardia after α-blockade should be treated with beta-blockers (BB), but nonselective BB should never be given before α-blockade due to the risk of unopposed α agonism, leading to vasoconstriction and hypertensive crises.

Answer 131

A

CCBs are used to control hypertension. Calcium triggers catecholamine release from the tumor, and excess calcium entry into myocardial cells contributes to catecholamine-mediated cardiomyopathy.

Answer 132

A

https://www.youtube.com/watch?v=cc-j1fzFQ1s

Answer 133

A

The two forms of Cushing syndrome are ACTH-dependent and ACTH-independent.

In ACTH-dependent Cushing’s, high plasma ACTH stimulates the adrenal cortex to produce excessive cortisol.

In ACTH-independent Cushing’s, excessive cortisol production is by abnormal adrenocortical tissue not regulated by CRH and ACTH, with CRH and ACTH levels actually suppressed.

Answer 134

A

Acute ectopic ACTH syndrome is a form of ACTH-dependent Cushing’s syndrome most often associated with small cell lung carcinoma.

Answer 135

A

Benign or malignant adrenocortical tumors are the most common cause of ACTH-independent Cushing syndrome.

Answer 136

A

The treatment of choice for a resectable microadenoma in Cushing syndrome is transsphenoidal microadenomectomy.

Answer 137

A

If a microadenoma is not resectable, patients may undergo 85-90% resection of the anterior pituitary, pituitary irradiation, or bilateral total adrenalectomy.

Answer 138

A

Preoperative considerations include evaluation and treatment of blood pressure, electrolyte imbalance, and blood glucose levels. Additionally, consider the risk of osteoporosis when positioning the patient for surgery.

Answer 139

A

Primary hyperaldosteronism, also known as Conn syndrome, is the excess secretion of aldosterone from a functional tumor (aldosteronoma) that acts independently of a physiological stimulus.

Secondary hyperaldosteronism presents when serum renin is increased, stimulating the release of aldosterone.

Answer 140

A

Primary hyperaldosteronism is more common in women than in men and can occasionally be associated with conditions such as pheochromocytoma, hyperparathyroidism, or acromegaly.

Answer 141

A

Symptoms of hyperaldosteronism can be nonspecific and some individuals are asymptomatic. However, common signs include hypertension, hypokalemia, and hypokalemic metabolic alkalosis.

Answer 142

A

Spontaneous hypokalemia in the presence of systemic hypertension is highly suggestive of hyperaldosteronism.

In primary hyperaldosteronism, plasma renin activity is suppressed, whereas in secondary hyperaldosteronism, plasma renin activity is high.

Answer 143

A

Long-term ingestion of licorice can cause a syndrome that mimics the features of hyperaldosteronism, which includes hypertension, hypokalemia, and suppression of the renin-angiotensin-aldosterone system (RAAS).

Answer 144

A

Treatment options for hyperaldosteronism include the use of competitive aldosterone antagonists (such as Spironolactone), potassium replacement, antihypertensives, diuretics, tumor removal, and possibly adrenalectomy.

Answer 145

A

Hyperkalemia in the absence of renal insufficiency suggests hypoaldosteronism. This condition may be enhanced by hyperglycemia.

Answer 146

A

Common manifestations of hypoaldosteronism include hyperchloremic metabolic acidosis, heart block due to hyperkalemia, orthostatic hypotension, and hyponatremia.

Lack of aldosterone may be caused by a congenital deficiency of aldosterone synthetase or hyporeninemia due to defects in the juxtaglomerular apparatus or ACE inhibitors.

Answer 147

A

Hyporeninemic hypoaldosteronism typically occurs in patients over 45 with chronic renal failure or diabetes mellitus.

Indomethacin-induced prostaglandin deficiency is a reversible cause of this syndrome. Treatment includes liberal sodium intake and daily administration of fludrocortisone.

Answer 148

A

In primary adrenal insufficiency (Addison’s disease), the adrenal glands are unable to produce sufficient amounts of glucocorticoid, mineralocorticoid, and androgen hormones, often due to autoimmune adrenal destruction.

Secondary adrenal insufficiency results from hypothalamic-pituitary disease or suppression, leading to a lack of CRH or ACTH production and causing a deficiency only in glucocorticoids.

Answer 149

A

The most common cause of primary adrenal insufficiency is autoimmune destruction of the adrenal glands, and more than 90% of the glands must be affected before clinical signs become apparent.

Answer 150

A

Patients with secondary adrenal insufficiency typically lack hyperpigmentation and may only show mild electrolyte abnormalities.

This is because, unlike Addison’s disease, there is a glucocorticoid deficiency but not a mineralocorticoid deficiency.

Most cases are iatrogenic, due to factors such as the use of synthetic glucocorticoids, pituitary surgery, or radiation.

Answer 151

A

Adrenal insufficiency is diagnosed when the baseline cortisol is less than 20 μg/dL and remains below 20 μg/dL after ACTH stimulation. A poor response to ACTH indicates impairment of the adrenal cortex.

Answer 152

A

Absolute adrenal insufficiency is characterized by a low baseline cortisol level and a positive ACTH stimulation test. Relative adrenal insufficiency is indicated when the baseline cortisol level is higher but there is still a positive response to the ACTH stimulation test.

Answer 153

A

The treatment for adrenal insufficiency is the administration of steroids.

Answer 154

A

The four parathyroid glands are located behind the upper and lower poles of the thyroid gland, and they produce parathyroid hormone (PTH).

Answer 155

A

The release of parathyroid hormone (PTH) is regulated by a negative feedback mechanism that depends on plasma calcium levels; hypocalcemia stimulates PTH release, whereas hypercalcemia suppresses hormonal synthesis and release.

Answer 156

A

PTH maintains normal plasma calcium levels by promoting the movement of calcium across the gastrointestinal tract, renal tubules, and bone.

Answer 157

A

Primary hyperparathyroidism is most commonly caused by a benign parathyroid adenoma (90%), less commonly by parathyroid carcinoma (<5%), or parathyroid hyperplasia.

Answer 158

A

Symptoms of hyperparathyroidism can include sedation, nausea/vomiting, decreased strength and sensation, polyuria, renal stones, peptic ulcer disease, and cardiac disturbances.

It is diagnosed by measuring plasma calcium and 24-hour urinary calcium. Treatment typically involves surgical removal of the abnormal portions of the gland.

Answer 159

A

Secondary hyperparathyroidism is a compensatory response of the parathyroid glands to chronic hypocalcemia, such as that seen with chronic renal failure (CRF).

Answer 160

A

Because secondary hyperparathyroidism is an adaptive response to a separate disease process producing hypocalcemia, it does not typically result in hypercalcemia.

Answer 161

A

Treatment of secondary hyperparathyroidism involves controlling the underlying disease and normalizing phosphate levels in patients with renal disease by administering a phosphate binder.

Answer 162

A

Hypoparathyroidism is typically present when there is a deficiency of PTH or resistance to its effects in peripheral tissues.

It is most often iatrogenic, due to inadvertent removal of parathyroid glands during thyroidectomy.

Pseudohypoparathyroidism is a congenital disorder where PTH levels are adequate, but the kidneys are resistant to its effects.

Answer 163

A

Hypoparathyroidism is diagnosed by the presence of hypocalcemia with total calcium less than 4.5 mEq/L and ionized calcium less than 2.0 mg/dL, accompanied by decreased PTH and increased phosphate levels.

Answer 164

A

Acute hypoparathyroidism, such as after thyroidectomy, may cause inspiratory stridor due to irritability of the laryngeal musculature.

Chronic hypoparathyroidism is associated with fatigue, cramps, prolonged QT interval, lethargy, cataracts, subcutaneous calcifications, thickening of the skull, and neurologic deficits.

Chronic renal failure is the most common cause of chronic hypocalcemia.

Treatment includes calcium replacement and vitamin D.

Answer 165

A

The pituitary gland is located in the sella turcica at the base of the brain and consists of two main parts: the anterior pituitary and the posterior pituitary.

Answer 166

A

The anterior pituitary secretes six hormones: growth hormone (GH), adrenocorticotropic hormone (ACTH), thyroid-stimulating hormone (TSH), follicle-stimulating hormone (FSH), luteinizing hormone (LH), and prolactin. The secretion of these hormones is under the control of the hypothalamus.

Answer 167

A

Vasopressin and oxytocin are synthesized in the hypothalamus, then transported and stored in the posterior pituitary.

The release of these hormones from the posterior pituitary is triggered by osmoreceptors in the hypothalamus that sense plasma osmolarity.

Overproduction of anterior pituitary hormones is often associated with hypersecretion of ACTH, leading to conditions like Cushing syndrome, caused by anterior pituitary adenomas.

Answer 168

A

Acromegaly is primarily caused by excessive secretion of growth hormone (GH) in adults, often due to an adenoma in the anterior pituitary gland.

Diagnosis is typically confirmed by elevated levels of serum insulin-like growth factor 1 (IGF-1).

Answer 169

A

An oral glucose tolerance test involves measuring plasma growth hormone levels before and after ingestion of 75 grams of glucose. In patients with acromegaly, plasma growth hormone remains elevated (>1 ng/mL) even 2 hours after glucose ingestion.

Answer 170

A

Acromegaly can lead to overgrowth of soft tissues, causing susceptibility to upper airway obstruction, hoarseness, abnormal movement of vocal cords, and paralysis of the recurrent laryngeal nerve.

Peripheral neuropathy may also occur due to nerve trapping by connective tissues.

Treatment typically involves transsphenoidal surgical excision of the pituitary adenoma. If surgery is not feasible, long-acting somatostatin analogues are used.

Answer 171

A

Distorted facial anatomy in patients with acromegaly may interfere with the placement of a face mask, making it challenging to achieve a proper seal for ventilation.

Answer 172

A

Enlarged tongue and epiglottis in patients with acromegaly predispose them to upper airway obstruction and interfere with the visualization of vocal cords during direct laryngoscopy. Mandible overgrowth also increases the distance between the lips and vocal cords, and vocal cord enlargement may narrow the glottic opening.

Answer 173

A

Patients with acromegaly may require smaller endotracheal tubes (ETT), video laryngoscopy (VL), or awake fiberoptic intubation to navigate the challenges posed by their enlarged upper airway anatomy.

Answer 174

A

Diabetes insipidus (DI) results from the absence of vasopressin (antidiuretic hormone, ADH) due to either the destruction of the posterior pituitary (neurogenic DI) or the failure of renal tubules to respond to ADH (nephrogenic DI).

Answer 175

A

Neurogenic and nephrogenic DI can be differentiated based on their response to desmopressin. Desmopressin causes urine concentration in neurogenic DI but not in nephrogenic DI.

Answer 176

A

Symptoms of DI include polydipsia (excessive thirst) and high output of poorly concentrated urine despite increased serum osmolarity.

The initial treatment approach involves intravenous electrolytes to offset polyuria. For neurogenic DI, desmopressin (DDAVP) is used, while nephrogenic DI is managed with a low-salt, low-protein diet, diuretics, and NSAIDs.

Answer 177

A

Anesthesia management for patients with DI involves monitoring urine output (UOP) and serum electrolyte concentrations closely to ensure proper fluid balance and electrolyte levels during the perioperative period.

Answer 178

A

SIADH can occur in the presence of diverse pathologies, including intracranial tumors, hypothyroidism, porphyria, and lung carcinoma.

Answer 179

A

In SIADH, there is inappropriately increased urinary sodium and osmolarity despite hyponatremia and decreased serum osmolarity. Abrupt decreases in serum sodium concentration can lead to cerebral edema and seizures.

Answer 180

A

Treatment for SIADH includes fluid restriction, salt tablets, loop diuretics, and ADH antagonists such as demeclocycline. Hyponatremia may be treated with hypertonic saline infusion at a rate of less than 8 mEq/L over 24 hours to prevent complications.

Answer 181

A

DKA results in an excessive release of glucose-counterregulatory hormones, including glucagon, which activates lipolysis, releasing free fatty acids that serve as substrates for ketogenesis.v

Answer 182

A

Fasting blood glucose and HbA1c levels are used for diagnosis.

Answer 183

A

DM2 is characterized by insulin resistance in skeletal muscle, adipose tissue, and the liver.

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T4 - Endocrine Assessment Flashcards

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