You are in: eMedicine Specialties > Pediatrics: General Medicine > Rheumatology Mixed Connective Tissue DiseaseArticle Last Updated: Aug 7, 2007AUTHOR AND EDITOR INFORMATIONSection 1 of 10
  Author: Marisa S Klein-Gitelman, MD, MPH, Associate Professor of Pediatrics, Northwestern University Feinberg School of Medicine; Head, Division of Rheumatology, Children's Memorial Hospital Marisa S Klein-Gitelman is a member of the following medical societies: American College of Rheumatology Editors: Barry L Myones, MD, Associate Professor, Departments of Pediatrics and Immunology, Pediatric Rheumatology Section, Baylor College of Medicine; Director of Research, Pediatric Rheumatology Center, Texas Children's Hospital; Mary L Windle, PharmD, Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy, Pharmacy Editor, eMedicine.com, Inc; Thomas JA Lehman, MD, Clinical Professor of Pediatrics, Department of Pediatrics, Division of Pediatric Rheumatology, Weill-Cornell University; Chief, Hospital for Special Surgery; Daniel Rauch, MD, FAAP, Director, Pediatric Hospitalist Program, Associate Professor, Department of Pediatrics, New York University School of Medicine; Barry L Myones, MD, Associate Professor, Departments of Pediatrics and Immunology, Pediatric Rheumatology Section, Baylor College of Medicine; Director of Research, Pediatric Rheumatology Center, Texas Children's Hospital Author and Editor Disclosure Synonyms and related keywords: mixed connective tissue disease, MCTD, autoimmune disorder, Raynaud phenomenon, puffy fingers, mild myositis, arthritis, anti-U1-68kD antibody, undifferentiated connective tissue disease, UCTD INTRODUCTIONSection 2 of 10
  BackgroundSharp and colleagues first proposed mixed connective tissue disease (MCTD) as a separate autoimmune disorder.1 The initial definition identified patients with a specific autoantibody profile, high titers of anti-U1 ribonucleoprotein (70-kD) autoantibody (anti-RNP Ab) but without anti-Smith autoantibody (anti-Sm Ab), in association with specific clinical criteria. Alarcon-Segovia and Villareal and Kasukawa et al subsequently suggested 2 alternate sets of criteria.2, 3 A comparison of the sensitivity and specificity of the above 3 sets of criteria along with a fourth set of criteria developed by Kahn et al demonstrated that the Kahn and Alarcon-Segovia criteria are the most sensitive and specific for disease diagnosis.4 In pediatrics, Kasukawa criteria are used most frequently in published series and have more conservative requirements. MCTD remains a controversial diagnosis; some rheumatologists view MCTD as a separate disease, and others classify the disorder as an undifferentiated connective tissue disease or overlap syndrome, which may have features of lupus, progressive systemic sclerosis, rheumatoid arthritis, and myositis but should not have its own separate name. Adding support to the concept of MCTD as a distinct entity, in 1993, Mairesse et al described an autoantibody to the constitutive 73-kD heat shock protein found at high levels exclusively in patients with MCTD.4 This autoantibody was found in reduced levels in patients with progressive systemic sclerosis and rheumatoid arthritis. The autoantibody was not found in significant quantities in patients with systemic lupus erythematosus (SLE) or myositis. This finding has not been duplicated and must be interpreted with caution. However, the authors redefine MCTD as "a core of minor symptoms (Raynaud phenomenon, puffy fingers, mild myositis and arthritis) associated significantly with anti-U1-68kD antibody, defining an undifferentiated connective tissue (UCTD) disease that may ultimately overlap with features of major connective tissue disease." Although confusing, perhaps the best way to consider MCTD is as an undifferentiated connective tissue disease represented mostly by Raynaud phenomenon and anti-RNP antibody. This disorder may evolve into one of several major connective tissue diseases or to an overlap syndrome of the major connective tissue diseases. The evolution of this disease requires the physician to carefully assess and constantly reassess the patient in anticipation of change and to provide early intervention with appropriate medical therapy. PathophysiologyMCTD has symptoms of several autoimmune diseases. Refer to disease-specific sites for more details (see Juvenile Rheumatoid Arthritis, Neonatal Lupus and Cutaneous Lupus Erythematosus in Children, Systemic Lupus Erythematosus, Systemic Sclerosis, Sjogren Syndrome, Dermatomyositis, and Myositis Ossificans). The following lists, published by several authors, are the criteria for making a diagnosis of MCTD.1, 2, 3 Sharp criteria
Alarcon-Segovia and Villareal classification
Kasukawa criteria
FrequencyUnited StatesIn a literature review, Michels counted 224 cases of MCTD.5 Pediatric-onset MCTD accounts for an estimated one quarter of all cases. Most large pediatric rheumatology centers in major cities have 5-15 active pediatric cases, although some studies estimate that MCTD occurs in 0.6% of all pediatric rheumatology patients. InternationalUS data are derived from international data. Mortality/MorbidityLiterature describes pediatric MCTD from individual case reports to small series. Mortality is 0-50%. The review by Michels found a mortality figure of 7.6%.5 More recent data assess pediatric mortality at 3-4 per 1000 population versus adult mortality at 12-23 per 1000 population. Serious organ involvement included 47% of patients with renal disease, 54% with restrictive lung disease, and 29% with GI disease. Although rare, morbidity from cerebral disease, cardiomyopathy, myopericarditis, and pulmonary hypertension has been reported and is associated with a significant risk of mortality. RaceEthnic distribution for pediatric MCTD has not been reported. Literature suggests that no specific protection or propensity based on race exists. SexA female predominance, which is typical of other autoimmune diseases, exists. Three published series on pediatric MCTD report 89 of 105 patients to be female, or a female-to-male ratio of approximately 6:1. AgeAge range for pediatric onset disease is younger than 16 years by definition. No specific age of onset is excluded. The median age at onset is 12 years, based on reported pediatric series. The youngest reported age at onset is 2 years. CLINICALSection 3 of 10
History
PhysicalDetailed physical examination is critical.
CausesSpecific causes of MCTD remain undefined. Research suggests that many factors, including genetics, hormones, and environment, contribute to development of autoimmune syndromes. As mentioned in the Introduction, the hallmark of MCTD is the presence of autoantibodies to U1 small nuclear ribonucleoproteins, in particular a 70-kDa U1 protein. During cell death or apoptosis, the 70-kDa protein is cleaved by caspase-3 into a small 40-kDa protein. Several research groups have described this apoptotic form. Specific anti-RNP autoantibodies that preferentially bind to the apoptotic form of the U1 protein have been demonstrated in a group of patients with MCTD (29 of 53 tested). Furthermore, the concentration of the autoantibody is high early in the disease and decreases over time, suggesting that it correlates or represents an inciting event in disease onset. DIFFERENTIALSSection 4 of 10
Acute Lymphoblastic Leukemia Acute Poststreptococcal Glomerulonephritis Autoimmune and Chronic Benign Neutropenia Chronic Fatigue Syndrome Endocarditis, Bacterial Evans Syndrome Fibromyalgia Juvenile Rheumatoid Arthritis Nephritis Nephrotic Syndrome Pericarditis, Viral Polyarteritis Nodosa Pulmonary Hypertension, Idiopathic Sarcoidosis Splenomegaly Systemic Lupus Erythematosus Systemic Sclerosis
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| Drug Name | Naproxen (Aleve, Naprelan, Naprosyn, Anaprox) |
|---|---|
| Description | For relief of mild to moderate pain; inhibits inflammatory reactions and pain by decreasing activity of cyclooxygenase, which is responsible for prostaglandin synthesis. Available in SR formulation for once daily dosing as Naprelan. |
| Adult Dose | 500-1000 mg/d PO divided bid |
| Pediatric Dose | 7-20 mg/kg/d PO divided bid/tid; not to exceed adult dose |
| Contraindications | Documented hypersensitivity; gastritis; hepatic or renal insufficiency; coagulopathy; other conditions in which changes in platelet function could be harmful |
| Interactions | Coadministration with aspirin increases risk of inducing serious NSAID-related adverse effects; probenecid may increase concentrations and, possibly, toxicity of NSAIDs; may decrease effect of hydralazine, captopril, and beta-blockers; may decrease diuretic effects of furosemide and thiazides; may increase PT when taking anticoagulants (instruct patients to watch for signs of bleeding); may increase risk of methotrexate toxicity; phenytoin levels may be increased when administered concurrently |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Category D in third trimester of pregnancy; acute renal insufficiency, interstitial nephritis, hyperkalemia, hyponatremia, and renal papillary necrosis may occur; patients with preexisting renal disease or compromised renal perfusion risk acute renal failure; leukopenia occurs rarely, is transient, and usually returns to normal during therapy; persistent leukopenia, granulocytopenia, or thrombocytopenia warrants further evaluation and may require discontinuation; occasionally, patient with SLE has a hypersensitivity reaction, most often characterized as a hepatotoxicity, but reaction can include other symptoms and must be kept in mind |
| Drug Name | Tolmetin (Tolectin) |
|---|---|
| Description | For relief of mild to moderate pain; inhibits inflammatory reactions and pain by decreasing activity of cyclooxygenase, which is responsible for prostaglandin synthesis. |
| Adult Dose | 1200-1800 mg/d PO divided tid |
| Pediatric Dose | <2 years: Not established >2 years: 15-30 mg/kg/d PO divided tid/qid; not to exceed adult dose |
| Contraindications | Documented hypersensitivity; gastritis; hepatic or renal insufficiency; coagulopathy; other conditions in which changes in platelet function could be harmful |
| Interactions | May increase serum concentrations of methotrexate or lithium; aspirin and probenecid may increase serum concentrations; tolmetin and warfarin lead to increased PT and bleeding; drug interactions similar to other NSAIDs may occur (eg, blunting antihypertensive effects of beta-blocking agents); other GI irritants may increase GI adverse reactions |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Caution with renal or liver disease; avoid during pregnancy; occasionally, patient with SLE has hypersensitivity reaction, most often characterized as hepatotoxicity, but reaction can include other symptoms and must be kept in mind; routinely monitor for gastritis, renal toxicity, hepatic toxicity, and bone marrow suppression, hepatitis, interstitial nephritis, CNS changes |
| Drug Name | Diclofenac (Voltaren-XR) |
|---|---|
| Description | Inhibits prostaglandin synthesis by decreasing activity of enzyme cyclooxygenase, which decreases formation of prostaglandin precursors. Available in SR formulation as Voltaren-XR (100 mg). |
| Adult Dose | 100-200 mg/d PO divided bid |
| Pediatric Dose | <12 years: Not established >12 years: 2-3 mg/kg/d PO divided bid; not to exceed adult dose |
| Contraindications | Documented hypersensitivity; gastritis; hepatic or renal insufficiency; coagulopathy; other conditions in which changes in platelet function could be harmful |
| Interactions | Coadministration with aspirin increases risk of inducing serious NSAID-related adverse effects; probenecid may increase concentrations and, possibly, toxicity of NSAIDs; may decrease effect of hydralazine, captopril, and beta-blockers; may decrease diuretic effects of furosemide and thiazides; may increase PT when taking anticoagulants (instruct patients to watch for signs of bleeding); may increase risk of methotrexate toxicity; phenytoin levels may be increased when administered concurrently |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Category D in third trimester of pregnancy; acute renal insufficiency, hyperkalemia, hyponatremia, interstitial nephritis, and renal papillary necrosis may occur; increases risk of acute renal failure in patients with preexisting renal disease or compromised renal perfusion; low WBC counts occur rarely and usually return to normal in ongoing therapy; discontinuation of therapy may be necessary with persistent leukopenia, granulocytopenia, or thrombocytopenia; occasionally, patient with SLE has hypersensitivity reaction, most often characterized as hepatotoxicity, but reaction can include other symptoms and must be kept in mind |
Patients in whom major disease manifestation is lupus, rash, and other minor symptoms can be treated with hydroxychloroquine.
| Drug Name | Hydroxychloroquine (Plaquenil) |
|---|---|
| Description | Antimalarial drugs inhibit synthesis of DNA, RNA, and proteins by interacting with nucleic acids. Antimalarial drugs have variety of immunosuppressive effects, can act as antioxidants, and interfere with prostaglandins. Hydroxychloroquine sulfate 200 mg is equivalent to 155 mg hydroxychloroquine base and 250 mg chloroquine phosphate. |
| Adult Dose | 200-400 mg/d PO (3-7 mg/kg/d) |
| Pediatric Dose | 3-7 mg/kg/d PO; not to exceed 400 mg/d |
| Contraindications | Documented hypersensitivity; G-6-PD deficiency; retinal or visual field changes; porphyria; psoriasis |
| Interactions | Few reported; chloroquine may potentiate possible ocular toxicity; serum levels increase with cimetidine; magnesium trisilicate may decrease absorption |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Caution in hepatic disease, G-6-PD deficiency, psoriasis, and porphyria; not recommended for long-term use in children; perform periodic (ie, 6 mo) ophthalmologic examinations for retinal pigment changes; test periodically for muscle weakness; adverse effects are infrequent and include eye changes, GI symptoms (diarrhea is most prominent), and CNS changes |
Use corticosteroids to treat children with hypocomplementemia and elevated levels of anti-DNA antibodies, children with active myositis, and children with significant manifestations of scleroderma. Dose varies with intensity of disease activity. Consider daily prednisone (1 mg/kg/d) or higher-dose alternate-day prednisone (5 mg/kg/d, not to exceed 150-250 mg depending on size of patient). Alternatively, lower-dose daily prednisone (0.5 mg/kg) may be used in conjunction with intermittent high-dose IV methylprednisolone (30 mg/kg/dose, not to exceed 1 g) on a weekly basis. Of note, recent case reports suggest that 3 days of pulse IV methylprednisolone followed by moderate-to-high dose oral steroids improved pulmonary artery pressures in a patient with MCTD and pulmonary artery hypertension.
| Drug Name | Prednisone (Deltasone, Orasone)/Methylprednisolone (Adlone, Solu-Medrol) |
|---|---|
| Description | Decreases inflammation by suppression of immune system: decreased lymphocyte volume and activity; decreased PMN migration; decreased or reversal of capillary permeability. High doses, especially over periods longer than 2-3 wk, suppress adrenal function. |
| Adult Dose | 1-2 mg/kg/d PO |
| Pediatric Dose | 1-2 mg/kg/d PO initially in divided doses not to exceed qid, then consolidated to daily dose before tapering total mg/d 30 mg/kg IV not to exceed 1 g/d as methylprednisolone for severe disease; may be administered as 3-d pulse regimen or as part of steroid regimen under guidance of rheumatologist |
| Contraindications | Documented hypersensitivity; serious infection except septic shock or tuberculous meningitis but including systemic fungal infection and varicella |
| Interactions | Coadministration with digoxin may increase digitalis toxicity secondary to hypokalemia; estrogens may increase levels of methylprednisolone; phenobarbital, phenytoin, and rifampin may decrease levels of methylprednisolone (adjust dose); monitor patients for hypokalemia with concurrent diuretic use |
| Pregnancy | B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals |
| Precautions | Carefully monitor patients on corticosteroids for infection and carefully evaluate in setting of fever with no obvious source; monitor patients for diabetes, osteoporosis, osteonecrosis, hypertension, glaucoma, cataract, altered mood, gastritis; evaluate patients for occult infection, including TB and HIV, prior to starting corticosteroids Sudden discontinuation in patients on chronic steroids even in face of active infection; infection can cause disease flare and sudden discontinuation of steroids may cause Addisonian crisis; carefully consider use of steroids in setting of active infection and discuss with experienced physicians; consider alternate types of immunosuppression in patients who develop diabetes while on corticosteroids and taper steroids carefully; in interim, may require insulin |
Evaluate children with signs of active nephritis to determine World Health Organization (WHO) classification category of their nephritis. For patients with class IV nephritis and some patients with class III nephritis, treat with corticosteroids and cyclophosphamide. Use azathioprine for individuals with milder nephritis. Use methotrexate for persons with arthritis not controlled by NSAIDs and for persons with fibrosis, especially sclerodermatous skin. Consider cyclophosphamide for individuals with severe systemic involvement of other vital organs, especially brain and lung. Consider other agents (eg, mycophenolate mofetil, cyclosporine) when standard therapies have failed. Other treatments under study include hormonal therapy, biologic agents that target cytokine production, and anti-DNA antibodies. For patients with severe persistent disease, autologous and stem cell transplantation is under study.
| Drug Name | Cyclophosphamide (Cytoxan, Neosar) |
|---|---|
| Description | Interferes with normal function of DNA by alkylation and cross-linking strands of DNA and by possible protein modification. |
| Adult Dose | 500-1000 mg/m2 IV every mo; not to exceed 1000 mg/m2 |
| Pediatric Dose | Administer as in adults |
| Contraindications | Documented hypersensitivity; severely depressed bone marrow function |
| Interactions | Allopurinol may increase risk of bleeding or infection and enhance myelosuppressive effects; may potentiate doxorubicin-induced cardiotoxicity; may reduce digoxin serum levels and antimicrobial effects of quinolones Chloramphenicol may increase half-life while decreasing metabolite concentrations; may increase effect of anticoagulants; coadministration with high doses of phenobarbital may increase rate of metabolism and leukopenic activity; thiazide diuretics may prolong cyclophosphamide-induced leukopenia and neuromuscular blockade by inhibiting cholinesterase activity |
| Pregnancy | D - Fetal risk shown in humans; use only if benefits outweigh risk to fetus |
| Precautions | Regularly examine hematologic profile (particularly neutrophils and platelets) to monitor for hematopoietic suppression; regularly examine urine for RBCs, which may precede hemorrhagic cystitis |
| Drug Name | Azathioprine (Imuran) |
|---|---|
| Description | Antagonizes purine metabolism and may inhibit synthesis of proteins, RNA, and DNA. May interfere with mitosis and cellular metabolism. |
| Adult Dose | 1-2.5 mg/kg/d PO |
| Pediatric Dose | 1-3 mg/kg/d PO |
| Contraindications | Documented hypersensitivity; low levels of serum TPMT |
| Interactions | Toxicity increases with allopurinol; concurrent use with ACE inhibitors may induce severe leukopenia; may increase levels of methotrexate metabolites and decrease effects of anticoagulants, neuromuscular blockers, and cyclosporine |
| Pregnancy | D - Fetal risk shown in humans; use only if benefits outweigh risk to fetus |
| Precautions | Monitor carefully for renal toxicity and hepatotoxicity; caution in patients with liver or renal disease; decrease dose by 25-33% in patients receiving allopurinol and azathioprine |
| Drug Name | Methotrexate (Rheumatrex) |
|---|---|
| Description | An antimetabolite that interferes with enzyme dihydrofolate reductase, leading to depletion of DNA precursors and inhibition of DNA and purine synthesis, particularly adenosine. |
| Adult Dose | 5-30 mg PO/IV/SC qwk |
| Pediatric Dose | 5-20 mg/m2 PO/IV/SC qwk; many pediatric rheumatologists increase dose (not to exceed 30 mg/m2; approximately equivalent to 1 mg/kg) |
| Contraindications | Documented hypersensitivity; alcoholism; hepatic insufficiency; documented immunodeficiency syndromes; preexisting blood dyscrasias (eg, bone marrow hypoplasia, leukopenia, thrombocytopenia, significant anemia); renal insufficiency |
| Interactions | Oral aminoglycosides may decrease absorption and blood levels of concurrent PO methotrexate (MTX); charcoal lowers MTX levels; coadministration with etretinate may increase hepatotoxicity of MTX; folic acid or derivatives contained in some vitamins may decrease response to MTX Coadministration with NSAIDs may be fatal; indomethacin and phenylbutazone can increase MTX plasma levels; may decrease phenytoin serum levels Probenecid, salicylates, procarbazine, and sulfonamides, including TMP/SMZ, may increase effects and toxicity of MTX; may increase plasma levels of thiopurines |
| Pregnancy | X - Contraindicated; benefit does not outweigh risk |
| Precautions | Monitor CBC counts monthly and liver and renal function every 1-3 mo during therapy (monitor more frequently during initial dosing, dose adjustments, or when risk of elevated MTX levels [eg, dehydration]); MTX has toxic effects on hematologic, renal, GI, pulmonary, and neurologic systems; discontinue if significant drop in blood counts; aspirin, NSAIDs, or low-dose steroids may be administered concomitantly with MTX (possibility of increased toxicity with NSAIDs, including salicylates, has not been tested) |
All patients who are on corticosteroids or who have arthritis are at greater risk for osteopenia and its complications. Diet and appropriate supplementation with vitamin D and calcium are important tools for bone health in these patients.
| Drug Name | Calcium carbonate (Oystercal, Caltrate) |
|---|---|
| Description | Used as antacid and for prevention of calcium depletion. |
| Adult Dose | 1200 mg/d PO |
| Pediatric Dose | <6 months: 360 mg/d PO 6-12 months: 540 mg/d PO 1-10 years: 800 mg/d PO 11-18 years: Administer as in adults |
| Contraindications | Renal calculi; hypercalcemia; hypophosphatemia; renal or cardiac disease; digitalis toxicity |
| Interactions | May decrease effects of tetracyclines, atenolol, salicylates, iron salts, and fluoroquinolones; large intakes of dietary fiber may decrease calcium absorption and levels |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Caution in renal disease; cardiac disease; and sarcoidosis |
| Drug Name | Calcifediol (Calderol) |
|---|---|
| Description | Vitamin D regulates calcium homeostasis, promoting absorption of calcium by gut, resorption of calcium by kidney, and increasing bone mineral metabolism. |
| Adult Dose | 20-100 mcg/d PO; titrate to obtain normal serum calcium and phosphorus levels |
| Pediatric Dose | Suggested doses: <30 kg: 20 mcg PO 3 times per wk >30 kg: 50 mcg PO 3 times per wk |
| Contraindications | Documented hypersensitivity; hypercalcemia |
| Interactions | Effects enhanced by thiazide diuretics and reduced by cholestyramine and colestipol; may precipitate arrhythmia in conjunction with digitalis |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Pregnancy category C per manufacturer; expert analysis category A; category D if dosage exceeds RDA; adequate dietary calcium needed for clinical response; maintain adequate fluid intake; calcium-phosphate product (serum calcium times phosphorus) not to exceed 70; avoid use with renal function impairment and secondary hyperparathyroidism; avoid hypercalcemia |
These agents are used to improve peripheral blood flow and to improve delivery of oxygen to tissue suffering from peripheral vascular disease. In individuals with MCTD, used to decrease symptoms and damage from Raynaud phenomenon.
| Drug Name | Pentoxifylline (Trental) |
|---|---|
| Description | Methylxanthine used as hemorheologic agent by improving flow properties of blood by decreasing viscosity, which improves oxygenation to peripheral tissues. Precise mode of action is not defined; however, produces dose-related hemorheologic effects, lowering blood viscosity and improving erythrocyte flexibility. Another benefit is ability to increase leukocyte deformability and to inhibit neutrophil adhesion and activation. |
| Adult Dose | 400 mg PO tid with meals |
| Pediatric Dose | Not established |
| Contraindications | Documented hypersensitivity; recent cerebrovascular or retinal hemorrhage; serious adverse reaction to caffeine, theophylline, theobromine, or other methylxanthines |
| Interactions | Coadministration with cimetidine or theophylline increases effect, toxic potential, or both; increases effect of antihypertensives; patients taking warfarin should undergo more frequent monitoring of PTs |
| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus |
| Precautions | Patients taking warfarin should undergo more frequent monitoring of PTs; frequently examine and monitor patients at increased risk for bleeding or with history of bleeding for change in hemoglobin or hematocrit levels |
These agents increase peripheral vasodilation and may be helpful in treating symptoms associated with Raynaud disease.
| Drug Name | Sildenafil (Revatio) |
|---|---|
| Description | Inhibits phosphodiesterase type 5 in smooth muscle of pulmonary vasculature in which phosphodiesterase type 5 is responsible for the degradation of cGMP. Increased cGMP concentration results in pulmonary vasculature relaxation; vasodilation in the pulmonary bed and the systemic circulation (to a lesser degree) may occur. The systemic vasodilation may be helpful to reduce Raynaud disease symptoms. |
| Adult Dose | 20 mg PO qd initially; may increase, not to exceed 20 mg tid |
| Pediatric Dose | Data limited; safety and efficacy has not been established 20 mg PO qd initially; may increase, not to exceed 20 mg bid Not appropriate for small children |
| Contraindications | Documented hypersensitivity; concurrent or intermittent using of organic nitrates in any form |
| Interactions | Potentiates vasodilatory effect of NO, resulting in potentially fatal drop in blood pressure; coadministration with ketoconazole, erythromycin, or cimetidine increases plasma sildenafil concentrations; coadministration with rifampin decreases plasma levels of sildenafil; coadministration with bosentan increases bosentan levels by 50% and reduces sildenafil levels by 63% |
| Pregnancy | B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals |
| Precautions | Adverse effects include headaches (16%), flushing (10%), upset stomach (7%), nasal congestion (4%), and a blue haze at the periphery of vision (3%); adverse effects occur more often in men taking the 100-mg dose; serious adverse effects occur in patients with severe heart disease and those who are taking nitrates; rates of MI were 1.7 and 1.4 per 100 man-years for sildenafil and placebo groups; sudden vision loss caused by nonarteritic anterior ischemic optic neuropathy (NAION) has been associated with phosphodiesterase type 5 inhibitors following use for ED, analysis is ongoing to determine causality |
Mixed Connective Tissue Disease excerpt
Article Last Updated: Aug 7, 2007
