Lipid disorders

Last updated: November 3, 2023

Summary

Lipid disorders encompass a spectrum of metabolic conditions that affect blood lipid levels. They are generally characterized by elevated levels of cholesterol, triglycerides, and/or lipoproteins in the blood, which are often associated with atherosclerotic cardiovascular disease (ASCVD). Hyperlipidemia is most commonly a result of genetic predisposition in combination with lifestyle factors (e.g., diet, lack of activity, alcohol consumption). Hyperlipidemia resulting from single-gene disorders, e.g., familial hypercholesterolemia, can cause severe elevations in lipoprotein levels and early atherosclerotic complications. Lipid disorders are usually detected during laboratory testing as part of an ASCVD risk assessment. A serum lipid panel includes total cholesterol, LDL, HDL, and triglyceride levels. Lipid-lowering therapy is indicated to reduce the risk of cardiovascular disease in patients with LDL > 190 mg/dL, diabetes mellitus, and established ASCVD, and should be considered for other patients based on individual ASCVD risk. The main treatment modalities are lifestyle modifications and lipid-lowering agents such as statins.

Abetalipoproteinemia is a congenital lipid disorder in which a deficiency of apolipoproteins (hypolipoproteinemia) leads to impaired intestinal absorption of fats and fat-soluble vitamins. Symptoms usually appear during childhood and mainly consist of failure to thrive, steatorrhea, and signs of vitamin E deficiency. Treatment includes vitamin E supplementation.

Chalk Talk: Dyslipidemia 1

Definition

Dyslipidemia: an abnormal concentration of lipids in the blood (e.g., high or low LDL cholesterol)
Hyperlipidemia: elevated blood lipid levels (e.g., total cholesterol, LDL cholesterol, and/or triglycerides)
- Hypercholesterolemia: elevated total cholesterol levels > 200 mg/dL
- Hyperlipoproteinemia: elevated levels of serum lipoproteins (e.g. high VLDL)
- Hypertriglyceridemia: elevated triglyceride levels > 150 mg/dL

Epidemiology

Prevalence of hypercholesterolemia
- Elevated total cholesterol levels: ∼ 38% ^[1]
- Elevated LDL cholesterol levels: ∼ 29% ^[1]
Prevalence of hypertriglyceridemia: ∼ 26% ^[1]

Epidemiological data refers to the US, unless otherwise specified.

Etiology

Usually multifactorial ^[2]
- Secondary causes of dyslipidemia
- Genetic causes
  - Polygenic traits
  - Monogenic disease (less common)
  - See also “Frederickson classification of inherited hyperlipidemias.”

Severe dyslipidemia (e.g., LDL > 190 mg/dL) suggests an underlying monogenic disorder and/or a strong polygenic predisposition. ^[2]

Secondary causes of dyslipidemia ^[2]^[3]^[4]
	Elevated LDL cholesterol	Elevated triglycerides
Lifestyle factors	High intake of saturated and/or trans fats	Heavy consumption of alcohol Very low-fat diets High intake of refined carbohydrates Total parenteral nutrition, including lipid emulsions ^[5]
Lifestyle factors	Physical inactivity
Drugs	High-dose diuretics Cyclosporine Amiodarone	Beta blockers (e.g., metoprolol) Antipsychotics ^[6] Oral estrogens Bile acid sequestrants Thiazides SERMs, e.g., tamoxifen
Drugs	Steroids: glucocorticoids, anabolic steroids ^[3]^[4] Protease inhibitors
Medical conditions	Eating disorders, e.g., anorexia Cholestatic liver disease, e.g., PBC, biliary obstruction	Diabetes mellitus Chronic kidney disease HIV infection Systemic lupus erythematosus Sepsis ^[5]
Medical conditions	Obesity Nephrotic syndrome Hypothyroidism Cushing syndrome ^[7] Pregnancy

Pathophysiology

Elevated LDL cholesterol and reduced HDL cholesterol promote atherosclerosis → increased risk of cardiovascular events
See “Pathogenesis of atherosclerosis.”

Dyslipidemia is a major risk factor for ASCVD.

Pathogenesis of atherosclerosis

Clinical features

Dyslipidemia is usually asymptomatic.
Severe and/or persistent elevation can cause:
- Benign skin and/or eye manifestations, e.g., xanthelasma, lipemia retinalis
- Complications, e.g., atherosclerosis, hepatic steatosis
In genetic lipid disorders, symptoms generally occur at an earlier age and are more severe than in acquired lipid disorders.

Skin manifestations

Xanthomas

Description: nodular lipid deposits in the skin and tendons
Pathophysiology: : Extremely high levels of triglycerides and/or LDL cholesterol result in extravasation of plasma lipoproteins and their deposition in tissue.
Histology: large perivascular infiltrates with foam cells (lipid-laden macrophages) and multinucleated histiocytes called Touton giant cells

Types of xanthomas
	Description	Location	Associated condition
Eruptive xanthoma	Yellow papules with an erythematous border May be tender and itchy	Buttocks, back, and extensor surfaces of the extremities	Hypertriglyceridemia (chylomicron or VLDL) Lipoprotein lipase deficiency (familial hyperchylomicronemia)
Tuberous xanthoma	Firm, painless, reddish-yellow nodules located in pressure areas	Knees, elbows, heels, and buttocks	Severe hypercholesterinemia (↑ LDL and/or VLDL levels)
Tendinous xanthoma	Firm nodules, located in tendons	Extensor tendons of hands and Achilles tendon	Severe hypercholesterinemia (↑ LDL and/or VLDL levels)
Palmar xanthoma	Yellow plaques	Palms of the hands	Type III hyperlipoproteinemia (↑ VLDL levels) Biliary cirrhosis
Plane xanthoma	Yellow, thin plaques	Larger body areas, e.g., trunk, neck, shoulders	Lymphoma, leukemia, plasmacytomas

Xanthoma : Eruptive xanthomas Xanthoma tendinosum

Xanthelasmas

Description: typically bilateral, yellow, flat plaques on the upper eyelids (nasal side)
Etiology
- Idiopathic
- Increased incidence in:
  - Patients with diabetes mellitus
  - Patients with increased lipoproteins in plasma
  - Usually affects postmenopausal women
Associated conditions: hypercholesterolemia (e.g., primary biliary cholangitis), hyperapobetalipoproteinemia, ↑ LDL cholesterol levels

Xanthelasma

Eye manifestations

Lipemia retinalis
- Description: opaque, white appearance of the retinal vessels, visible on fundoscopic exam
- Associated condition: hyperlipoproteinemia type I, III, and IV
Arcus lipoides corneae
- Associated with hyperlipoproteinemia type II
- Not pathological in advanced age

Arcus senilis

Subtypes and variants

Overview of inherited hyperlipoproteinemias

Frederickson classification of inherited hyperlipoproteinemias ^[8]
	I	Type II hyperlipoproteinemia		III	Type IV hyperlipoproteinemia	V
	I	IIa	IIb	III	Type IV hyperlipoproteinemia	V
Condition	Familial hyperchylomicronemia ^[9]	Familial hypercholesterolemia ^[10]	Familial combined hyperlipidemia ^[11]	Familial dysbetalipoproteinemia (or remnant hyperlipoproteinemia) ^[12]	Familial hypertriglyceridemia ^[13]	Mixed hyperlipidemia ^[14]
Frequency ^[15]	Rare	Heterozygous: 1:500 Homozygous: very rare (approx, 1:1,000,000)	1:50–1:200	1:1000–1:5000	1:50–1:100	Very rare
Inheritance	Autosomal recessive	Autosomal dominant		Autosomal recessive	Autosomal dominant	Autosomal recessive
Pathogenesis	Deficiency of lipoprotein lipase or apolipoprotein C-II	Defective LDL receptors or ApoB-100, missing LDL receptors		Defective ApoE	Hepatic overproduction of VLDL or defective ApoA-V	Defective ApoA5
Clinical manifestations	No increased risk of atherosclerosis Eruptive xanthomas Hepatosplenomegaly Recurrent episodes of acute pancreatitis and/or abdominal pain Lipemia retinalis Bile duct stenosis	Premature atherosclerosis, may lead to myocardial infarction at a very young age (< 20 years) Arcus lipoides corneae Tuberous/tendon xanthomas (especially the Achilles tendon) in type IIa Xanthelasma in type IIb		Premature atherosclerosis Palmar and tuberoeruptive xanthomas	Premature atherosclerosis Tuberoeruptive xanthomas Acute pancreatitis (if triglycerides > 900 mg/dL) Features of hyperglycemia (due to abnormal glucose tolerance and insulin resistance)	No ↑ risk of atherosclerosis Eruptive xanthomas Features of hyperglycemia Abdominal pain
Lipoprotein defect	Chylomicrons	LDL	LDL and VLDL	Remnants of VLDL and chylomicrons	VLDL	Chylomicrons and VLDL
Total cholesterol	Normal to mildly ↑	Homozygotes: > 600 mg/dL Heterozygotes: > 250 mg/dL	Massively ↑	↑	Normal to mildly ↑	↑
Elevated serum lipoproteins	Chylomicrons	LDL	LDL VLDL	Chylomicrons VLDL	VLDL	Chylomicrons VLDL
Total triglycerides	Massively ↑ Can be > 2,000 mg/dL	Normal	↑	↑	Massively ↑	Massively ↑
Overnight plasma	Creamy top layer	Clear	Clear	Turbid	Turbid	Creamy top and turbid bottom layer

Abetalipoproteinemia

Etiology
- Deficiency of apolipoproteins (ApoB-48, ApoB-100)
- Due to a mutation in the microsomal triglyceride transfer protein (MTTP) gene
Pathophysiology
- Autosomal recessive disease
- Deficiency of chylomicrons, VLDL, and LDL (hypolipoproteinemia)
Clinical features
- Early
  - Steatorrhea
  - Failure to thrive
  - Fat malabsorption → fat-soluble vitamin deficiency
  - Acanthocytosis
- Late
  - Developmental delay
  - Retinitis pigmentosa
  - Myopathy
  - Progressive ataxia
  - Spinocerebellar degeneration as a result of vitamin E deficiency
Diagnostics
- Extremely low levels of plasma cholesterol (< 50 mg/dL)
- Acanthocytes in the blood
- Other tests performed include complete blood count with differential, stool studies, and fasting lipid profile.
- Confirmatory test: genetic testing to detect mutations in the MTTP gene
- Intestinal biopsy: Histology may reveal lipid-laden enterocytes.
Treatment
- Vitamin E supplementation (high doses)
- Reduced long-chain fatty acids intake

Diagnostics

General principles ^[16]^[17]

Order a lipid panel when evaluating patients with a known secondary cause of dyslipidemia, e.g., diabetes mellitus or nephrotic syndrome.
Screen for lipid disorders based on age and family history.
If lipid levels are abnormal:
- Repeat a lipid panel at least once to confirm the diagnosis. ^[2]
- Assess for secondary causes of dyslipidemia. ^[1]
- Calculate ASCVD risk.
- Consider testing for monogenic disorders based on clinical suspicion. ^[16]

Screening for lipid disorders ^[1]

A nonfasting or fasting lipid panel is acceptable. ^[16]

Adults age 20–75 years
- Screen at least every 4–6 years. ^[18]
- See “ASCVD risk assessment" for details.
Children and adolescents age < 20 years
- The American Academy of Pediatrics recommends universal screening before and after puberty. ^[19]
- The USPSTF has found insufficient evidence regarding the benefits vs. harms of universal screening. ^[20]

For individuals with a family history suggestive of premature ASCVD and/or inherited hyperlipoproteinemia, begin screening as early as age 2 years. ^[16]

Diagnostic confirmation ^[4]^[16]^[17]

Lipid panel: includes total cholesterol, HDL, LDL, and triglycerides
- Nonfasting is appropriate for most situations.
- Fasting is indicated if initial triglycerides are ≥ 400 mg/dL.
Other tests
- Direct measurement of LDL cholesterol: indicated if the estimated level is < 70/mg/dL ^[16]^[21]
- Lipoprotein(a) and apolipoprotein B: Consider as part of ASCVD risk assessment. ^[16]^[17]

Optimal lipid levels

Total cholesterol: < 200 mg/dL
HDL cholesterol: ≥ 40 mg/dL for men; ≥ 50 mg/dL for women ^[22]
LDL cholesterol: depends on ASCVD risk ^[17]
- < 100 mg/dL in adults at average risk
- < 70 mg/dL in patients with ASCVD or at high risk
Triglycerides: < 150 mg/dL
Lipoprotein(a): < 50 mg/dL
Apolipoprotein B: < 130 mg/dL

Assays for apolipoprotein B and lipoprotein(a) are not formally standardized and results may therefore be unreliable.

Additional evaluation ^[1]^[2]^[17]

Secondary causes ^[1]^[2]^[17]

Obtain the following studies based on clinical suspicion.
- Fasting blood glucose or HbA1c ^[23]^[24]
- TSH
- Liver chemistries to screen for cholestatic liver disease ^[1]
- Urinalysis and serum creatinine to screen for renal disease, e.g., nephrotic syndrome
- HIV testing ^[17]
- Testing for autoimmune diseases, e.g., SLE diagnostics
Consider other secondary causes based on patient history, e.g., antipsychotic use or lifestyle factors

Monogenic causes ^[2]^[4]^[25]^[26]

Clinical scoring systems (e.g., Dutch Lipid Clinic Network criteria) may be used to diagnose familial hypercholesterolemia.
Refer for targeted gene sequencing if results will influence management decisions. ^[2]
Factors that increase suspicion for a monogenic disorder include: ^[2]^[25]
- Persistent and/or severe dyslipidemia, e.g., LDL cholesterol > 190 mg/dL
- Premature ASCVD ^[26]
- Family history of premature ASCVD or dyslipidemia
- Concerning clinical features, e.g., achilles tendon xanthoma ^[2]

ASCVD risk calculator (2013 ACC/AHA pooled cohort equations)

Treatment

This section focuses on the treatment of severe LDL cholesterol and triglyceride elevations. For non-severe hyperlipidemia, treatment is based on the calculated ASCVD risk.

Approach ^[1]^[16]

Encourage lifestyle modifications for ASCVD prevention for all patients, including:
- Physical activity
- Dietary modifications
Mitigate secondary causes of hyperlipidemia.
- Limit alcohol use.
- Manage associated medical conditions, e.g., diabetes mellitus.
- Avoid medications that increase triglyceride or cholesterol levels.
Initiate pharmacotherapy based on the type and severity of dyslipidemia.
Consult a lipid specialist for patients with:
- Inherited hyperlipoproteinemias
- Statin intolerance
- Persistent hypercholesterolemia, e.g., for treatment with LDL apheresis ^[16]

Treatment of monogenic disease (e.g., familial hyperlipidemia) can be hindered by unaddressed secondary causes of dyslipidemia. ^[2]

Pharmacotherapy

Very high LDL cholesterol ^[16]^[26]^[27]

Indication: LDL cholesterol ≥ 190 mg/dL in adults 20–75 years of age ^[16]
Goals: LDL cholesterol < 100 mg/dL or ≥ 50% reduction in levels
First-line agents: : high-intensity statin therapy, e.g., atorvastatin or rosuvastatin ^[16]
Subsequent treatment
- Repeat lipid panel after 6–12 weeks of treatment or dose adjustment. ^[2]^[4]
- Consider adding nonstatin lipid-lowering agents sequentially if treatment goals are not met, e.g.:
  - Ezetimibe ^[16]
  - PCSK9 inhibitor, e.g., evolocumab or alirocumab
  - Bile-acid sequestrant, e.g., colesevelam
  - Lomitapide

Severe hypertriglyceridemia ^[1]^[5]^[16]

Indication: fasting triglycerides > 500 mg/dL
First-line agents
- Fibrates, e.g., fenofibrate or gemfibrozil
- OR omega-3 fatty acids, e.g., icosapent ethyl or omega-3-acid ethyl esters
Subsequent treatment: if triglycerides remain > 500 mg/dL ^[1]
- Fibrate PLUS omega-3-acids (recommended)
- Consider adding niacin . ^[4]

In patients with LDL cholesterol < 190 mg/dL and/or triglycerides < 500 mg/dL, treatment with statins may still be indicated depending on ASCVD risk.

Xanthoma and xanthelasma ^[28]^[29]

Treatment may be considered for cosmetic reasons, but recurrence is common.
Methods include surgical, laser, and/or topical therapy.

Complications

Hepatic steatosis: associated with abetalipoproteinemia
Hypertriglyceridemia-induced pancreatitis
- May occur in severe hypertriglyceridemia (typically > 1,000 mg/dL)
- Associated conditions include hyperlipoproteinemia types I and IV.
ASCVD
- Manifests with secondary diseases, e.g.:
- Hyperlipoproteinemia types II, III; , and IV are associated with premature atherosclerosis.

We list the most important complications. The selection is not exhaustive.

Prevention

See “Primary prevention of ASCVD” and “Secondary prevention of ASCVD.”

Special patient groups

Treatment of dyslipidemia in children ^[30]

Base treatment decisions on average of ≥ 2 fasting lipid panels taken within 2 weeks to 3 months of each other. The goal of medical therapy is to lower LDL cholesterol to ≤ 130 mg/dL.

Children with LDL cholesterol ≥ 130 mg/dL or elevated triglycerides : lifestyle modifications
Children ≥ 10 years
- Consider medical therapy if fasting lipids remain elevated after 6 months despite lifestyle modifications.
- Base treatment decision on LDL cholesterol levels, traditional ASCVD risk factors, family history of premature ASCVD , and the presence of high- or medium-risk conditions.
Children < 10 years: medical therapy not generally recommended, except in the following situations:
- Established ASCVD in patients ≤ 20 years or cardiac transplantation
- Severe primary hyperlipidemia: LDL cholesterol ≥ 400 mg/dL and/or triglycerides ≥ 500 mg/dL
Consult a lipid specialist for treatment of:
- Triglycerides > 500 mg/dL: Consider pharmacotherapy to reduce the risk of acute pancreatitis.
- LDL cholesterol ≥ 250 mg/dL

Related One-Minute Telegram

One-Minute Telegram 71-2023-2/3: Statin your case: high-intensity therapy vs. treat-to-target for elevated LDL cholesterol

Interested in the newest medical research, distilled down to just one minute? Sign up for the One-Minute Telegram in “Tips and links” below.

References

Rosenson RS, JP Kastelein JJP. Hypertriglyceridemia. In: Post TW, ed. UpToDate. Waltham, MA: UpToDate. https://www.uptodate.com/contents/hypertriglyceridemia. Last updated: February 28, 2017. Accessed: January 14, 2018.
HYPERLIPOPROTEINEMIA, TYPE I. https://www.omim.org/entry/238600. Updated: September 7, 2016. Accessed: April 3, 2019.
HYPERLIPOPROTEINEMIA, TYPE II, AND DEAFNESS. https://www.omim.org/entry/144300. Updated: January 21, 2009. Accessed: April 3, 2019.
Rosenson RS, Durrington P. Inherited disorders of LDL-cholesterol metabolism other than familial hypercholesterolemia. In: Post TW, ed. UpToDate. Waltham, MA: UpToDate. https://www.uptodate.com/contents/inherited-disorders-of-ldl-cholesterol-metabolism-other-than-familial-hypercholesterolemia. Last updated: March 27, 2018. Accessed: April 3, 2019.
HYPERLIPOPROTEINEMIA, TYPE III. https://www.omim.org/entry/617347. Updated: March 22, 2018. Accessed: April 3, 2019.
HYPERLIPOPROTEINEMIA, TYPE IV. https://www.omim.org/entry/144600. Updated: November 22, 2010. Accessed: April 3, 2019.
HYPERLIPOPROTEINEMIA, TYPE V. https://www.omim.org/entry/144650. Updated: June 3, 2018. Accessed: April 3, 2019.
Bays HE, Jones PH, Orringer CE, Brown WV, Jacobson TA. National Lipid Association Annual Summary of Clinical Lipidology 2016. Journal of Clinical Lipidology. 2016; 10 (1): p.S1-S43.doi: 10.1016/j.jacl.2015.08.002 . | Open in Read by QxMD
Berberich AJ, Hegele RA. A Modern Approach to Dyslipidemia. Endocr Rev. 2021; 43 (4): p.611-653.doi: 10.1210/endrev/bnab037 . | Open in Read by QxMD
Stone NJ, Robinson JG, Lichtenstein AH, et al. 2013 ACC/AHA Guideline on the Treatment of Blood Cholesterol to Reduce Atherosclerotic Cardiovascular Risk in Adults. Circulation. 2014; 129 (25_suppl_2).doi: 10.1161/01.cir.0000437738.63853.7a . | Open in Read by QxMD
Jellinger PS et al.. American Association of Clinical Endocrinologists and American College of Endocrinology Guidelines for Management of Dyslipidemia and Prevention of Cardiovascular Disease. Endocr Pract. 2017; 23 (Supplement 2): p.1-87.doi: 10.4158/ep171764.appgl . | Open in Read by QxMD
Virani SS, Morris PB, Agarwala A, et al. 2021 ACC Expert Consensus Decision Pathway on the Management of ASCVD Risk Reduction in Patients With Persistent Hypertriglyceridemia. J Am Coll Cardiol. 2021; 78 (9): p.960-993.doi: 10.1016/j.jacc.2021.06.011 . | Open in Read by QxMD
Skrede S, Steen VM, Fern⊘ J. Antipsychotic-induced increase in lipid biosynthesis: activation through inhibition?. J Lipid Res. 2013; 54 (2): p.307-309.doi: 10.1194/jlr.e034736 . | Open in Read by QxMD
Arnaldi G, Scandali VM, Trementino L, Cardinaletti M, Appolloni G, Boscaro M. Pathophysiology of dyslipidemia in Cushing’s syndrome. Neuroendocrinology. 2010; 92 (1): p.86-90.doi: 10.1159/000314213 . | Open in Read by QxMD
Grundy SM, Stone NJ, Bailey AL, et al. 2018 AHA/ACC/AACVPR/AAPA/ABC/ACPM/ADA/AGS/APhA/ASPC/NLA/PCNA Guideline on the Management of Blood Cholesterol: A Report of the American College of Cardiology/American Heart Association Task Force on Clinical Practice Guidelines. Circulation. 2018; 139 (25).doi: 10.1161/cir.0000000000000625 . | Open in Read by QxMD
Wilson PWF, Jacobson TA, Martin SS, et al. Lipid measurements in the management of cardiovascular diseases: Practical recommendations a scientific statement from the national lipid association writing group. J Clin Lipidol. 2021; 15 (5): p.629-648.doi: 10.1016/j.jacl.2021.09.046 . | Open in Read by QxMD
Handelsman Y, Jellinger PS, Guerin CK, et al. Consensus Statement by the American Association of Clinical Endocrinologists and American College of Endocrinology on the Management of Dyslipidemia and Prevention of Cardiovascular Disease Algorithm – 2020 Executive Summary. Endocr Pract. 2020; 26 (10): p.1196-1224.doi: 10.4158/cs-2020-0490 . | Open in Read by QxMD
Arnett DK, Blumenthal RS, Albert MA, et al. 2019 ACC/AHA Guideline on the Primary Prevention of Cardiovascular Disease. J Am Coll Cardiol. 2019; 74 (10): p.e177-e232.doi: 10.1016/j.jacc.2019.03.010 . | Open in Read by QxMD
Hackell M, Almendarez YM, et al. 2023 Recommendations for Preventive Pediatric Health Care. Pediatrics. 2023; 151 (4).doi: 10.1542/peds.2023-061451 . | Open in Read by QxMD
Barry MJ, Nicholson WK, et al. Screening for Lipid Disorders in Children and Adolescents. JAMA. 2023; 330 (3): p.253.doi: 10.1001/jama.2023.11330 . | Open in Read by QxMD
Sampson M, Ling C, Sun Q, et al. A New Equation for Calculation of Low-Density Lipoprotein Cholesterol in Patients With Normolipidemia and/or Hypertriglyceridemia. JAMA Cardiol. 2020; 5 (5): p.540-548.doi: 10.1001/jamacardio.2020.0013 . | Open in Read by QxMD
Peter P. Toth. The “Good Cholesterol”. Circulation. 2005; 111 (5).doi: 10.1161/01.cir.0000154555.07002.ca . | Open in Read by QxMD
Goldberg IJ. Diabetic Dyslipidemia: Causes and Consequences. J Clin Endocrinol Metab. 2001; 86 (3): p.965-971.doi: 10.1210/jcem.86.3.7304 . | Open in Read by QxMD
Vodnala D, Rubenfire M, Brook RD. Secondary Causes of Dyslipidemia. Am J Cardiol. 2012; 110 (6): p.823-825.doi: 10.1016/j.amjcard.2012.04.062 . | Open in Read by QxMD
Brown EE, Sturm AC, Cuchel M, et al. Genetic testing in dyslipidemia: A scientific statement from the National Lipid Association. J Clin Lipidol. 2020; 14 (4): p.398-413.doi: 10.1016/j.jacl.2020.04.011 . | Open in Read by QxMD
Lui DTW, Lee ACH, Tan KCB. Management of Familial Hypercholesterolemia: Current Status and Future Perspectives. J Endocr Soc. 2020; 5 (1).doi: 10.1210/jendso/bvaa122 . | Open in Read by QxMD
Gidding SS, Ann Champagne M, de Ferranti SD, et al. The Agenda for Familial Hypercholesterolemia. Circulation. 2015; 132 (22): p.2167-2192.doi: 10.1161/cir.0000000000000297 . | Open in Read by QxMD
Rohrich RJ, Janis JE, Pownell PH. Xanthelasma Palpebrarum: A Review and Current Management Principles. Plast Reconstr Surg. 2002; 110 (5): p.1310-4.doi: 10.1097/01.prs.0000025626.70065.2b . | Open in Read by QxMD
Sathiyakumar V; Jones SR; Martin SS. Fitzpatrick's Dermatology, Ninth Edition, 2-Volume Set. McGraw-Hill Education / Medical ; 2019
National Heart, Lung, and Blood Institute. Expert Panel on Integrated Guidelines for Cardiovascular Health and Risk Reduction in Children and Adolescents: Summary Report. Pediatrics. 2011; 128 (Supplement): p.S213-S256.doi: 10.1542/peds.2009-2107c . | Open in Read by QxMD

3 free articles remaining

You have 3 free member-only articles left this month. Sign up and get unlimited access.

Have an account? Log In Start free trial

Evidence-based content, created and peer-reviewed by physicians. Read the disclaimer