You are in: eMedicine Specialties > Rheumatology > Systemic Rheumatic Disease Raynaud PhenomenonArticle Last Updated: Apr 5, 2006AUTHOR AND EDITOR INFORMATIONSection 1 of 10
  Author: Jeffrey R Lisse, MD, FACP, Professor, Department of Internal Medicine; Chief, Section of Rheumatology, University of Arizona School of Medicine Jeffrey R Lisse is a member of the following medical societies: Alpha Omega Alpha, American College of Physicians-American Society of Internal Medicine, American College of Rheumatology, American Geriatrics Society, and Sigma Xi Coauthor(s): Mayra Oberto-Medina, DO, Fellow, Section of Rheumatology, University of Arizona Editors: John Varga, MD, Professor, Department of Internal Medicine, Division of Rheumatology, Northwestern University; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Herbert S Diamond, MD, Professor of Medicine, Temple University School of Medicine; Chairman Emeritus, Department of Internal Medicine, Western Pennsylvania Hospital; Alex J Mechaber, MD, FACP, Assistant Dean for Medical Curriculum, Associate Professor of Medicine, Division of General Internal Medicine, University of Miami Miller School of Medicine; Arthur Weinstein, MD, Professor of Medicine, Georgetown University Medical Center; Associate Chairman, Department of Medicine, Director, Section of Rheumatology, Washington Hospital Center Author and Editor Disclosure Synonyms and related keywords: vasospasm, Raynaud's phenomenon, reversible ischemia of peripheral arterioles, exposure to cold, stress-related ischemia, systemic sclerosis, scleroderma, secondary Raynaud, secondary Raynaud's, vasospasm, pallor INTRODUCTIONSection 2 of 10
  BackgroundRaynaud phenomenon refers to reversible ischemia of peripheral arterioles. This can be in response to various stimuli but is most commonly caused by exposure to cold or stress. Raynaud phenomenon (secondary Raynaud) should be distinguished from Raynaud disease (primary Raynaud). They are distinct disorders that share a similar name. Raynaud disease is the occurrence of the vasospasm alone, with no association with another illness. Raynaud phenomenon is usually used in the context of vasospasm associated with another illness, most commonly an autoimmune disease. Other terms used for this distinction are primary Raynaud (disease) and secondary Raynaud (phenomenon). Young female patients who have had Raynaud phenomenon alone for more than 2 years and have not developed any additional manifestations are at low risk for developing an autoimmune disease. Most of these patients are considered to have primary Raynaud. These patients do not exhibit capillary nailfold changes. If such changes are noted on nailfold capillaroscopy, other autoimmune diseases should be considered in the differential diagnoses. The same should be said for older and male patients who have Raynaud phenomenon, as vasospastic symptoms may predate systemic disease by as much as 20 years. In some studies, 46-81% of patients have secondary Raynaud. Although Raynaud phenomenon has been described with various autoimmune diseases, the most common association is with progressive systemic sclerosis (scleroderma; 90% prevalence) and mixed connective-tissue disease (85% prevalence). Raynaud phenomenon has also been described with such diverse diseases as systemic lupus erythematosus and other disorders not classified as autoimmune, including frostbite, vibration injury, polyvinyl chloride exposure, and cryoglobulinemia. PathophysiologyOne or more body parts experience intense vasospasm with associated pallor and, often, cyanosis. This is often followed by a hyperemic phase with associated erythema. The affected body parts are usually those most susceptible to cold injury. A clear line of demarcation exists between the ischemic and unaffected areas. These effects are reversible, and they must be distinguished from irreversible causes of ischemia such as vasculitis or thrombosis. Rarely, tissue necrosis occurs distal to the affected vessel. This usually happens in the periphery of the vasculature. It most commonly affects the digits of the fingers but may affect the toes, nose, and ears. Occasionally, even the tongue is involved. Evidence exist that, even under normal conditions, patients with primary or secondary Raynaud have abnormal blood flow to the affected digits and an abnormal recovery to cold stimuli. The decreased blood flow may be a result of increased blood viscosity, abnormalities of the vasculature (specifically the endothelium), or unusually intense vessel constriction. Patients with cryoglobulins or Waldenström macroglobulinemia have hyperviscosity syndromes that make blood flow in their peripheral vessels even more difficult, leading to this manifestation. Release of von Willebrand factor, nitric oxide synthesis, and local inflammation and cytokine production have all been implicated. In patients with scleroderma, secondary Raynaud is associated with narrowing of the blood vessels from proliferation in the subintimal area. This fixed lesion causes a certain amount of baseline ischemia and hypoxia. The endothelial cell has been implicated as one of the early targets for scleroderma. Vasospasm occurs on top of the background hypoxia. It has also been associated with an increase in endothelin-1, a vasoconstrictor substance. Endothelin-1 has not been noted in patients with primary or secondary Raynaud that is not associated with scleroderma. It is believed to be a product of abnormal endothelial cells that are present in the skin of these patients. Medications have been associated with exacerbations of primary or secondary Raynaud. Most of these medications promote vasoconstriction and include ergot alkaloids, nonspecific beta-adrenergic antagonists, and birth control pills. Some chemotherapeutic agents that are associated with fibrosis and may decrease blood flow, specifically bleomycin and the vinca alkaloids, have been associated with the development of secondary Raynaud. Frostbite leads to vasomotor instability that may last for many years after the freezing episode. Patients with primary Raynaud have successfully been treated by blocking alpha2-adrenergic receptors, but the precise mechanism for this positive response is unclear. U1-RNP antibodies may represent a marker for the vascular process that causes Raynaud phenomenon. It can also be considered a marker for associated structural vasculopathy. Originally, anti–U1-RNP was mostly associated with MCTD; however, subsequent studies have revealed that up to 29 % of patients may have undifferentiated connective-tissue disease (UCTD). Patients with scleroderma may express this in up to 21% of cases, while patients with SLE may develop antibodies up to 30% of the time. Neurologic influences, both locally and systemically, have been implicated. FrequencyUnited StatesOne survey reported an incidence of primary Raynaud at 5-10% in persons who are nonsmokers. However, the more accepted figure is 3-4%. The frequency of secondary Raynaud depends on the underlying disorder. For example, it is almost universal in patients with scleroderma (progressive systemic sclerosis). Secondary Raynaud may occur in up to 50% of individuals who regularly use vibrating equipment. InternationalThe prevalence of primary Raynaud varies among different populations, from 4.9-20.1% in women to 3.8-13.5% in men. The commonly accepted rate remains about 3-4%. As in the United States, prevalence of secondary Raynaud is dependent on the underlying disorder. Mortality/Morbidity
Race
SexPrevalence of primary Raynaud varies in different populations, ranging from 4.9-20.1% in women to 3.8-13.5% in men. Age
CLINICALSection 3 of 10
History
Physical
Causes
DIFFERENTIALSSection 4 of 10
Acromegaly Acute Myelogenous Leukemia Antiphospholipid Antibody Syndrome and Pregnancy Antithrombin Deficiency Arteriovenous Fistulas Atherosclerosis Buerger Disease (Thromboangiitis Obliterans) Carcinoid Lung Tumors Cold Agglutinin Disease Cryoglobulinemia Dermatomyositis Diabetes Mellitus, Type 1 Diabetes Mellitus, Type 2 Extremity Vascular Trauma Frostbite Graft Versus Host Disease Heart-Lung Transplantation Hemoglobinuria, Paroxysmal Cold Hepatitis B Hepatitis C Hypothermia Injecting Drug Use Localized Fibrosing Disorders: Linear Scleroderma, Morphea, Regional Fibrosis Lung Cancer, Non-Small Cell Lung Cancer, Oat Cell (Small Cell) Lymphoma, B-Cell Mixed Connective-Tissue Disease Multiple Myeloma Paroxysmal Nocturnal Hemoglobinuria Peripheral Arterial Occlusive Disease Pheochromocytoma Polycythemia Vera Polymyositis Protein C Deficiency Protein S Deficiency Rheumatoid Arthritis Scleroderma Sjogren Syndrome Stimulants Systemic Lupus Erythematosus Toxicity, Arsenic Toxicity, Cocaine Toxicity, Cyanide Toxicity, Lead
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| Drug Name | Nifedipine (Adalat, Procardia) |
|---|---|
| Description | Start with lowest dose available and titrate upward as tolerated. Result should be a diminution in the frequency or severity of attacks. Usually preparations that are not strong negative inotropes are preferred. ER dosage form is most commonly used. If this drug cannot be used, the alternative preparations (nicardipine, amlodipine, diltiazem) are worth considering. On average, moderate reduction of up to 35% improvement can be expected. Nifedipine among the dihydropyridines has been extensively studied; however, in the same category, felodipine, amlodipine, and isradipine seem to be equally effective. |
| Adult Dose | 30 mg XL PO qd |
| Pediatric Dose | Not recommended |
| Contraindications | Documented hypersensitivity; systemic hypotension; possibly, esophageal reflux; aortic stenosis |
| Interactions | Caution with coadministration of any agent that can lower BP, including beta-blockers and opioids; H2 blockers (cimetidine) may increase toxicity |
| Pregnancy | C - Safety for use during pregnancy has not been established. |
| Precautions | Teratogenic in rats and rabbits; blood pressure should be monitored; PT in patients on warfarin may be prolonged; may cause lower extremity edema; allergic hepatitis has occurred but is rare; possible increased cardiovascular risks with short acting preparations; may cause headache and reflex tachycardia, edema, and flushing |
| Drug Name | Nicardipine (Cardene, Cardene SR) |
|---|---|
| Description | Used for vasodilatation and possible antiplatelet effects. Start with lowest dose available. Extended dose preparations and agents with fewer negative inotropic effects are preferred. |
| Adult Dose | 20-30 mg PO tid or 30-60 mg PO bid (extended dose) |
| Pediatric Dose | Not recommended |
| Contraindications | Documented hypersensitivity; systemic hypotension; possibly, gastroesophageal reflux; aortic stenosis |
| Interactions | Interactions with other agents that lower blood pressure |
| Pregnancy | C - Safety for use during pregnancy has not been established. |
| Precautions | Causes vasodilatation; may cause headache, tachycardia, edema, and flushing; possible increased cardiovascular risks with short-acting agents; used with caution in patients with intracerebral hemorrhage and hepatic metabolism, so caution should be used when using it in patients with impaired liver function |
| Drug Name | Amlodipine (Norvasc) |
|---|---|
| Description | Relaxes coronary smooth muscle and produces coronary vasodilation, which in turn improves myocardial oxygen delivery. Benefits nonpregnant patients with systolic dysfunction, hypertension, or arrhythmias. Can be used during pregnancy if clinically indicated. |
| Adult Dose | 2.5-5 mg/d PO; not to exceed 10 mg/d PO |
| Pediatric Dose | Not recommended |
| Contraindications | Documented hypersensitivity; systemic hypotension; aortic stenosis |
| Interactions | Fentanyl may increase hypotensive effects; may increase cyclosporin levels; H2 blockers (cimetidine) may increase toxicity |
| Pregnancy | C - Safety for use during pregnancy has not been established. |
| Precautions | Adjust dose in renal/hepatic impairment; may cause lower extremity edema; allergic hepatitis has occurred but is rare |
| Drug Name | Diltiazem (Cardizem CD, Cardizem SR, Dilacor, Tiamate, Tiazac) |
|---|---|
| Description | During depolarization, inhibits calcium ions from entering the slow channels and voltage-sensitive areas of vascular smooth muscle and myocardium. Causes some vasodilatation but not as potently as nifedipine. |
| Adult Dose | Cardizem SR: 60-120 mg PO bid |
| Pediatric Dose | Not established |
| Contraindications | Documented hypersensitivity; severe CHF, sick sinus syndrome, second- or third-degree AV block, and hypotension (<90 mm Hg systolic) |
| Interactions | May increase carbamazepine, digoxin, cyclosporine, and theophylline levels; when administered with amiodarone, may cause bradycardia and a decrease in cardiac output; when administered with beta-blockers may increase cardiac depression; cimetidine may increase diltiazem levels |
| Pregnancy | C - Safety for use during pregnancy has not been established. |
| Precautions | Caution in impaired renal or hepatic function; may increase LFT levels, and hepatic injury may occur |
Used for vasodilation and possible antifibrotic and anti-inflammatory properties.
| Drug Name | Benazepril (Lotensin) |
|---|---|
| Description | Prevents conversion of angiotensin I to angiotensin II, a potent vasoconstrictor, resulting in lower aldosterone secretion. Should be used once a day. Should be started at the lowest possible dose and titrated upwards as tolerated. Desired effects include a decrease in frequency and severity of attacks of Raynaud phenomenon. |
| Adult Dose | 10 mg PO qd |
| Pediatric Dose | Not recommended |
| Contraindications | Documented hypersensitivity; chronic cough; systemic hypotension; hyperkalemia; NSAIDs |
| Interactions | May increase digoxin, lithium, and allopurinol levels; probenecid may increase benazepril levels; coadministration with diuretics increase hypotensive effects; the hypotensive effects of benazepril may be enhanced when administered concurrently with diuretics and NSAIDs |
| Pregnancy | D - Unsafe in pregnancy |
| Precautions | Use lowest effective dose and monitor serum potassium level; caution in renal impairment, valvular stenosis, or severe congestive heart failure |
Used for vasodilation and for their possible antifibrotic and anti-inflammatory effects.
| Drug Name | Losartan (Cozaar) |
|---|---|
| Description | Nonpeptide angiotensin II receptor antagonist that blocks the vasoconstrictor and aldosterone-secreting effects of angiotensin II. May induce a more complete inhibition of the renin-angiotensin system than ACE inhibitors. Does not affect the response to bradykinin and is less likely to be associated with cough and angioedema. For patients unable to tolerate ACE inhibitors. Less effective in patients with scleroderma than with primary Raynaud phenomenon. May modify some serum markers of vascular damage and possibly modulate some of the underlying tissue damage in scleroderma. |
| Adult Dose | 50 mg PO qd |
| Pediatric Dose | Not recommended |
| Contraindications | Documented hypersensitivity to angiotensin II preceptor antagonists |
| Interactions | Ketoconazole, sulfaphenazole, and phenobarbital may decrease effects; cimetidine may increase effects of losartan; may interact with other drugs that increase potassium concentrations and produce hyperkalemia |
| Pregnancy | D - Unsafe in pregnancy |
| Precautions | Caution in patients with unilateral or bilateral renal artery stenosis; may cause hyperkalemia |
Inhibits vessel constriction and elevation of blood pressure by competitively binding to endothelin-1 (ET-1) receptors ETA and ETB in endothelium and vascular smooth muscle.
| Drug Name | Bosentan (Tracleer) |
|---|---|
| Description | Endothelin receptor antagonist indicated for the treatment of pulmonary arterial hypertension in patients with WHO class III or IV symptoms to improve exercise ability and to decrease rate of clinical worsening. This leads to significant increase in cardiac index (CI) associated with significant reduction in pulmonary artery pressure (PAP), pulmonary vascular resistance (PVR), and mean right atrial pressure (RAP). Recently, prevention of digital ulcers was demonstrated in a randomized prospective, placebo-controlled trial that involved 122 patients with scleroderma. Case series also reported complete cessation of Raynaud symptoms in 4 patients. |
| Adult Dose | <40 kg: 62.5 mg PO bid; not to exceed 125 mg/d >40 kg: 62.5 mg PO bid for 4 wk initially, then increase to 125 mg PO bid |
| Pediatric Dose | Not established; 62.5 mg PO bid recommended if <40 kg, or >12 years; not to exceed 125 mg/d |
| Contraindications | Documented hypersensitivity; coadministration with cyclosporine A or glyburide |
| Interactions | Toxicity may increase when administered concomitantly with inhibitors of isoenzymes CYP450 2C9 and CYP450 3A4 (eg, ketoconazole, erythromycin, fluoxetine, sertraline, amiodarone, and cyclosporine A); induces isoenzymes CYP450 2C9 and CYP450 3A4, causing decrease in plasma concentrations of drugs metabolized by these enzymes, including glyburide and other hypoglycemics, cyclosporine A, hormonal contraceptives, simvastatin, and, possibly, other statins; hepatotoxicity increases with concomitant administration of glyburide |
| Pregnancy | X - Contraindicated in pregnancy |
| Precautions | Causes at least 3-fold elevation of liver aminotransferases (ie, ALT, AST) levels in about 11% of patients; may elevate levels of bilirubin (serum aminotransferase levels must be measured prior to initiation of treatment and then monthly); caution in patients with mildly impaired liver function (avoid in patients with moderate or severe liver impairment); not recommended while breastfeeding; monitor hemoglobin levels after 1 and 3 mo of treatment and every 3 mo thereafter; exclude pregnancy before initiating treatment and prevent thereafter with use of reliable contraception; headache and nasopharyngitis may occur |
Serotonin is a potent vasoconstrictor that is released from nerve endings and during platelet activation. This is the reason that these medications are believed to be helpful in the treatment of Raynaud phenomenon. Fluoxetine (20 mg) versus nifedipine (40 mg) in patients with primary and secondary Raynaud phenomenon showed that fluoxetine statistically improved the frequency and severity of Raynaud attacks, while nifedipine did not reach statistical significance. A better response was seen in patients with Raynaud disease versus patients with Raynaud phenomenon.
| Drug Name | Fluoxetine (Prozac) |
|---|---|
| Description | Selectively inhibits presynaptic serotonin reuptake with minimal or no effect in the reuptake of norepinephrine or dopamine. May cause more gastrointestinal adverse effects than other SSRIs now currently available, which is the reason it is not recommended as a first choice. May be given as a liquid or a capsule. May give as 1 dose or divided doses. Presence of food does not appreciably alter levels of the medication. May take up to 4-6 weeks to achieve steady state levels of the medication, as it has longest half-life (72 h). Long half-life is both an advantage and a drawback. If it works well, an occasional missed dose is not a problem; if problems occur, eliminating all active metabolites takes a long time. The choice depends on adverse effects and drug interactions. Adverse effects of SSRIs seem to be quite idiosyncratic; thus, relatively few reasons exist to prefer one over another at this point if dosing is started at a conservative level and advanced as tolerated. |
| Adult Dose | 10 mg PO upon waking; can be increased q2wk; not to exceed 60 mg/d |
| Pediatric Dose | Not established |
| Contraindications | Documented hypersensitivity; concurrent or recent (within 2 wk) use of MAOIs; coadministration with thioridazine |
| Interactions | Increases toxicity of diazepam and trazodone by decreasing clearance; also increases toxicity of MAOIs and highly protein-bound drugs; serotonin syndrome (ie, myoclonus, rigidity, confusion, nausea, hyperthermia, autonomic instability, coma, eventual death) occurs with simultaneous use of other serotonergic agents (eg, anorectic agents, tramadol, buspirone, trazodone, clomipramine, nefazodone, tryptophan; discontinue other serotonergic agents at least 2 wk prior to SSRIs) |
| Pregnancy | C - Safety for use during pregnancy has not been established. |
| Precautions | Caution in hepatic impairment and history of seizures; MAOIs should be discontinued at least 14 d before initiating fluoxetine therapy |
Agents in this class have potent vasodilatory effects.
| Drug Name | Epoprostenol (Flolan) |
|---|---|
| Description | Analogue of PGI2 has potent vasodilatory properties, immediate onset of action, and half-life of approximately 5 min. In addition to vasodilator properties, also contributes to inhibition of platelet aggregation and plays role in inhibition of smooth muscle proliferation. Continuous chronic infusion should be administered through central venous catheter. |
| Adult Dose | Acute dose: 2 ng/kg/min continuous IV; increase by 2 ng/kg/min q15min or longer until dose-limiting effects are elicited (eg, chest pain, anxiety, dizziness, changes in heart rate, dyspnea, nausea, vomiting, headache, hypotension, flushing) Continuous chronic infusion: Initial: 4 ng/kg/min IV less than maximum-tolerated infusion rate determined during acute dose If maximum-tolerated infusion rate is <5 ng/kg/min IV, chronic infusion rate should be half maximum-tolerated acute infusion rate Dosage adjustments: Dose adjustments in chronic infusion rate should be based on persistence, recurrence, or worsening of patient symptoms of pulmonary hypertension; if symptoms persist or reoccur after improving, infusion rate should be increased by 1-2 ng/kg/min q15min or more; following establishment of new chronic infusion rate, patient should be observed and vital signs monitored Studies used dosing regimens of 6-10 ng/kg/min for 72 h |
| Contraindications | Documented hypersensitivity to epoprostenol or structurally related compounds; chronic use in patients with CHF due to severe left ventricular systolic dysfunction |
| Interactions | Coadministration with anticoagulants may increase bleeding risk because of shared effects on platelet aggregation |
| Pregnancy | B - Usually safe but benefits must outweigh the risks. |
| Precautions | Coadminister whenever possible with anticoagulants to reduce risk of thromboembolism; sudden discontinuation or reduction in therapy may result in rebound pulmonary hypertension |
| Drug Name | Iloprost (Ventavis) |
|---|---|
| Description | Synthetic analogue of prostacyclin PGI2 that dilates systemic and pulmonary arterial vascular beds. Indicated for pulmonary arterial hypertension (WHO Group I) in patients with NYHA class III or IV symptoms to improve exercise tolerance and symptoms and to delay deterioration. |
| Adult Dose | Inhalation: Initial: 2.5 mcg/dose; if tolerated, increase to 5 mcg/dose; administer 6-9 times/d (dose at intervals 2 h while awake); 5 mcg/dose for maintenance dose; 45 mcg maximum daily dose |
| Contraindications | Documented hypersensitivity to iloprost or any component of formulation |
| Interactions | May increase hypotensive effect of vasodilators and antihypertensives; may increase bleeding risk when coadministered with anticoagulants |
| Pregnancy | C - Safety for use during pregnancy has not been established. |
| Precautions | Intended for inhalation administration using Prodose ADD drug-delivery system; monitor vital signs during initiation; avoid use in patients with hypotension (systolic BP <85 mm Hg); use caution with concurrent conditions or medications that may increase risk of syncope; dosage or therapy adjustment may be required if exertional syncope occurs; may reflect therapeutic gap or insufficient efficacy; if pulmonary edema occurs during administration, discontinue therapy; use caution in hepatic dysfunction; safety not established in patients with other concurrent pulmonary diseases (eg, COPD, severe asthma, acute infections); safety and efficacy not established in pediatric patients |
Article Last Updated: Apr 5, 2006
