Lower Extremity Peripheral Arterial Disease Management

In patients with Peripheral Arterial Disease (PAD), smoking should be stopped and hypertension, dyslipidemia, and diabetes mellitus treated. Patients with PAD should be treated with atorvastatin 40 mg to 80 mg daily or rosuvastatin 20 to 40 mg daily. Antiplatelet drugs such as aspirin or clopidogrel and angiotensin-converting enzyme inhibitors should be given. Beta blockers should be given if coronary artery disease, especially prior myocardial infarction, is present unless contraindicated. Cilostazol improves exercise time until intermittent claudication. Exercise rehabilitation programs should be used. Indications for lower extremity percutaneous transluminal angioplasty or bypass surgery are 1) incapacitating claudication in patients interfering with work or lifestyle; 2) limb salvage in patients with limb-threatening ischemia as manifested by rest pain, non-healing ulcers, and/ or infection or gangrene; and 3) vasculogenic impotence. Aronow WS. Cardiolog Res Cardiovasc Med: CRCM-103. DOI: 10.29011/CRCM-103. 000003


Introduction
Patients with Peripheral Arterial Disease (PAD) must be evaluated and treated to reduce overall cardiovascular morbidity and mortality as well as to prevent functional limitations and limbthreatening ischemia [1].Resting and post-exercise Ankle-Brachial Index (ABI) measurements are useful in diagnosing asymptomatic PAD [2].The risk of PAD progression is higher than expected at 6.3 years follow-up with 7% of asymptomatic PAD patients progressing to intermittent claudication and 21% of intermittent claudication patients having critical limb ischemia with 4% to 27% having amputations [3].Family history is a risk factor for PAD that cannot be modified [4].However, modifiable risk factors for PAD should be intensely treated.About half of patients with PAD are not optimally managed [5].These needs marked improvement to reduce morbidity and mortality.

Smoking cessation
Smoking cessation reduces the progression of PAD to critical leg ischemia and reduces the risk of myocardial infarction and death from cardiovascular causes [6][7][8].Continuing smoking increases the risk of amputation in patients with intermittent claudication.Patency in lower extremity bypass grafts is also worse in smokers than in nonsmokers.Patients should be assisted with counseling and developing a plan for quitting that may include pharmacotherapy and/or referral to a smoking cessation program [7][8][9].
Approaches to smoking cessation include use of nicotine patches or nicotine polacrilex gum available over the counter [10].If this therapy is unsuccessful, nicotine nasal spray or treatment with the antidepressant buproprion [10,11], a nicotine inhaler, or varenicline [12] should be considered.Varenicline is more successful than nicotine modalities in smoking cessation.Concomitant behavioral therapy may also be used [13].Repeated physician advice is very important in treating smoking cessation.

Treatment of hypertension
Hypertension should be adequately treated to reduce cardiovascular mortality and morbidity in patients with PAD [14,15].The blood pressure should be lowered to less than 140/90 mm Hg [14].In the Heart Outcomes Prevention Evaluation (HOPE) Study, 1715 patents had symptomatic PAD, and 2118 persons had asymptomatic PAD with an Ankle-Brachial Index (ABI) less than 0.9 [15].In the HOPE Study, compared with placebo, ramipril 10 mg daily reduced cardiovascular events by 25% in patients Volume 2016; Issue 01 with symptomatic PAD [15].In this study, ramipril reduced the absolute incidence of cardiovascular events by 5.9% in patients with asymptomatic PAD and by 2.3% in patients with a normal ABI [15].Angiotensin-converting enzyme inhibitors should be used to treat patients with lower extremity PAD [8,15].

Treatment of diabetes mellitus
The higher the hemoglobin A 1c levels in patients with diabetes mellitus and PAD, the higher the prevalence of severe PAD [16].Diabetes mellitus should be treated with the hemoglobin A 1c level lowered to less than 7% to decrease the incidence of myocardial infarction [8,17].For each 1% increase in hemoglobin A 1c , there was a 1.2% increase in the incidence of amputation or death from PAD [17].The blood pressure should be lowered to less than 140/85 mm Hg in diabetics with PAD [14].Diabetics with PAD should be treated with high-dose statins which include atorvastatin 40 mg to 80 mg daily or rosuvastatin 20 mg to 40 mg daily [18].Proper foot care is essential in diabetics with lower extremity PAD [8].

Treatment of dyslipidemia
Treatment of dyslipidemia with statins has been documented to reduce the incidence of mortality, cardiovascular events, and stroke in patients with PAD [19][20][21].At 5-year followup of 4,444 men and women with coronary artery disease and hypercholesterolemia in the Scandinavian Simvastatin Survival Study, as compared with placebo, simvastatin reduced the incidence of intermittent claudication by 38% [19].At 5-year follow-up of 6,748 patients with PAD in the Heart Protection Study, treatment with simvastatin 40 mg daily caused a 19% relative reduction and a 6.3% absolute reduction in major cardiovascular events independent of age, gender, or serum lipids levels [20].These data favor treating patients with PAD with statins regardless of serum lipids levels.At 39-month follow-up of 264 men and 396 women with symptomatic PAD and a serum LDL cholesterol of 125 mg/dl or higher, treatment with statins caused a reduction in the incidence of new coronary events of 58% [21].At 3.6-year follow-up of 5,480 patients without clinical cardiovascular disease but with a low ABI, use of statins reduced all-cause mortality 19% and major adverse cardiovascular events 20% [22].

Antiplatelet Drugs
Antiplatelet drugs that have been found to reduce the incidence of vascular death, nonfatal myocardial infarction, and nonfatal stroke in patients with PAD are aspirin, ticlodipine, and clopidogrel [28].Adverse hematologic effects associated with ticlodipine limit the use of this drug in the treatment of PAD [29].
The Antithrombotic Trialists' Collaboration Group (ATCG) reported a meta-analysis of 26 randomized studies of 6,263 patients with intermittent claudication caused by PAD [28].At follow-up, the incidence of vascular death, nonfatal myocardial infarction, and nonfatal stroke was 6.4% in patients randomized to antiplatelet drugs versus 7.9% in the control group, a reduction of 23% caused by antiplatelet therapy with significant reductions for all subgroups.
The ATCG reported a meta-analysis of 12 randomized studies of 2,497 patients with PAD undergoing peripheral arterial grafting [28].At follow-up, the incidence of vascular death, nonfatal myocardial infarction, and nonfatal stroke was 5.4% in patients randomized to antiplatelet drugs versus 6.5% in the control group, a significant reduction of 22% caused by antiplatelet therapy.
The ATCG also reported a meta-analysis of 4 randomized studies of 946 patients with PAD undergoing peripheral angioplasty [28].At follow-up, the incidence of vascular death, nonfatal myocardial infarction, and nonfatal stroke was 2.5% in patients randomized to antiplatelet drugs versus 3.6% in the control group, a significant reduction of 29% caused by antiplatelet therapy.
If one combines the 42 randomized studies of 9,706 patients with intermittent claudication, peripheral arterial grafting, or peripheral angioplasty, the incidence of vascular death, nonfatal myocardial infarction, and nonfatal stroke at follow-up was significantly reduced 23% by antiplatelet drugs, with similar benefits among patients with intermittent claudication, those having peripheral arterial grafting, and those having peripheral angioplasty [28].These data favor treatment with aspirin in men and women with PAD [28].

Aspirin and clopidogrel
In high-risk patients, the incidences of vascular death, nonfatal MI, and nonfatal stroke were 19% with an aspirin dose of 500 to 1500 mg daily, 26% with an aspirin dose of 160 to 325 mg daily, 32% with an aspirin dose of 75 to 150 mg daily, and 13% with an aspirin dose of less than 75 mg daily [28].Since aspirin doses greater than 150 mg daily do not reduce vascular death, nonfatal myocardial infarction, and nonfatal stroke more than does an aspirin dose of 75 to 150 mg daily and cause more gastrointestinal bleeding than the lower doses, this author prefers an aspirin dose of 81 mg daily in treating patients with atherosclerotic vascular disease.In the Clopidogrel versus Aspirin in Patients at Risk for Ischaemic Events (CAPRIE) trial, 5,795 patients with PAD were randomized to clopidogrel 75 mg daily and 5,797 patients with PAD were randomized to aspirin 325 mg daily [30].At 1.9year follow-up, the annual incidence of vascular death, nonfatal myocardial infarction, and nonfatal stroke was 3.7% in patients randomized to clopidogrel versus 4.9% in persons randomized to aspirin, a 24% reduction with the use of clopidogrel [30].
On the basis of the available data, it is reasonable to treat patients with PAD with either aspirin or clopidogrel.Aspirin 75 to 325 mg daily or clopidogrel 75 mg daily are recommended by the 2013 updated American College of Cardiology (ACC)/American Heart Association (AHA) guidelines to reduce the risk of myocardial infarction, stroke, or vascular death in patients with PAD [8].These guidelines recommend the use of aspirin or clopidogrel in patients with symptomatic atherosclerotic lower extremity PAD, including those with intermittent claudication or critical limb ischemia, prior lower extremity revascularization (endovascular or surgical), or prior amputation for lower extremity ischemia, with a class I indication [8].These guidelines also recommend the use of aspirin or clopidogrel to reduce the risk of myocardial infarction, stroke, or vascular death in asymptomatic patients with an ABI less than or equal to 0.90 with a class IIa indication [8].

Vorapaxar
Vorapaxar is a protease-activated receptor-1 antagonist.Blocking protease-activated receptor-1 may cause potent antiplatelet activity without affecting the ability of thrombin to generate fibrin and without inhibiting platelet activity by collagen.There is no prothrombosis with PAR-1 antagonism.Of 26,449 patients with atherosclerotic vascular disease randomized to vorapaxar or placebo, 3787 patients had PAD [31].At 2.5year follow-up, patients with PAD randomized to vorapaxar had no significant reduction in myocardial infarction, stroke or cardiovascular death, a 42% reduction in hospitalization for acute limb ischemia from 3.9% to 2.3%, a 16% reduction in peripheral artery revascularization from 22.2% to 18.4%, and a 62% increase in bleeding from 4.5% to 7.2% [31].Vorapaxar is approved by the US Food and Drug Administration to treat patients with PAD receiving aspirin or clopidogrel to reduce the need for peripheral artery revascularization.This drug should not be used in patients with a history of stroke or transient ischemic attack or bleeding in the head.

Oral anticoagulants
In the Dutch Bypass Oral Anticoagulants or Aspirin Study, 2690 patients were randomized after infrainguinal bypass surgery to aspirin 80 mg daily or to oral anticoagulation with phenprocoumon or acenocoumarol to maintain an INR of 3.0-4.5 [32].At 21-month follow-up, there was no significant difference between the two treatments in the primary outcome of infrainguinal graft occlusion or in the secondary outcomes of myocardial infarction, stroke, amputation, or vascular death.However, patients treated with oral anticoagulant therapy had 1.96 times more major bleeding episodes than patients treated with oral aspirin [32].The 2013 ACC/AHA guidelines state that oral anticoagulant therapy with war far in should not be given to reduce the risk of adverse cardiovascular ischemic events in patients with atherosclerotic lower extremity PAD (class III indication with no benefit) [8].

Angiotensin-Converting Enzyme Inhibitors
Angiotensin-converting enzyme inhibitors as well as statins have many pleotropic effects to account for their vascular protective properties beyond their primary mode of action including inhibition of cellular proliferation, restoration of endothelial activity, inhibition of platelet reactivity, and an antioxidant potential [33].The 2013 ACC/AHA guidelines recommend treating patients with PAD with angiotensin-converting enzyme inhibitors unless there are contraindications to the use of these drugs to reduce cardiovascular mortality and morbidity [8].

Beta blockers
Patients with PAD are at increased risk for developing new coronary events.Many physicians are reluctant to use beta blockers in patients with PAD because of concerns that beta blockers will aggravate intermittent claudication.However, a meta-analysis of 11 randomized controlled studies found that beta blockers do not adversely affect walking capacity or the symptoms of intermittent claudication in patients with mild-to-moderate PAD [34].At 32-month follow-up of 490 men and women with symptomatic PAD and prior myocardial infarction without contraindications to beta blockers, use of beta blockers caused a 53% reduction in the incidence of new coronary events in patients with PAD and prior myocardial infarction [35].In a vascular surgery clinic, 301 of 364 patients (83%) with PAD and coronary artery disease were treated with beta blockers [36].The 2013 ACC/AHA guidelines state that beta blockers are not contraindicated in treating patients with PAD [8].Beta blockers with alpha blocking effects such as carvedilol should be used.
In a study of 69 patients with intermittent claudication and hypercholesterolemia, compared with placebo, simvastatin increased the treadmill exercise time until the onset of intermittent claudication by 24% at 6 months and by 42% at 1 year after therapy [23].In a study of 354 patients with intermittent claudication and hypercholesterolemia, at 1-year follow-up, compared with placebo, atorvastatin 80 mg daily improved pain-free treadmill walking distance by 40% and improved community-based physical activity [24].In a study of 86 patients with intermittent claudication and hypercholesterolemia, at 6-month follow-up, compared with Volume 2016; Issue 01 placebo, simvastatin 40 mg daily improved pain-free walking distance and total walking distance on a treadmill, improved the mean ABI at rest and after exercise, and improved symptoms of claudication [25].
Statin use is also associated with superior leg functioning independent of cholesterol levels and other potential confounders [37].Despite data recommending use of statins, aspirin, and angiotensin-converting enzyme inhibitors or angiotensin receptor blockers for secondary prevention in patients with PAD, millions of adults in the United States with PAD are not receiving these drugs [38].Use of these drugs in patients with PAD and no other cardiovascular disease was associated with a 65% reduction in all-cause mortality [38].Statins also are associated with reduced amputation rates in patients with PAD [39,40].

Drugs to Increase Walking Distance
Chelation therapy has been demonstrated to be ineffective in the therapy of PAD [41], has a class III indication for treating PAD [8], and may have harmful effects [8].Numerous drugs have been shown to be ineffective in improving walking distance in patients with intermittent claudication [42].Oral vasodilator prostaglandins such as beraprost and iloprost and vitamin E therapy have a class III indication (lack of benefit) for treating PAD [8].
Two drugs, pentoxifylline and Cilostazol, have been approved by the United States Food and Drug Administration for symptomatic treatment of intermittent claudication.However, many studies have found no consistent improvement with pentoxifylline in patients with intermittent claudication in comparison with placebo [43].The clinical effectiveness of pentoxifylline to treat intermittent claudication is not established [8].
Cilostazol has been demonstrated in numerous trials to improve exercise capacity in patients with intermittent claudication [44,45], and in a dose of 100 mg twice daily, was shown to be superior to both placebo and pentoxifylline [45].The 2013 ACC / AHA guidelines state with a class I indication that Cilostazol 100 mg orally 2 times daily is indicated to improve symptoms and increase walking distance in patients with intermittent claudication due to lower extremity PAD in the absence of heart failure [8].
A randomized, placebo-controlled trial showed that in 212 patients with intermittent claudication due to PAD, 24-week treatment with ramipril caused a significant 75 second increase in mean pain-free walking time and a significant 255 second increase in maximum walking time [46].Ramipril also significantly improved the overall SF-36 median Physical Component Summary score by 8.2 [46].Of 159 patients with intermittent claudication due to PAD, patients were randomized to 4 weeks of therapy with subcutaneous injections 3 times a week of Granulocyte-Macrophage Colony-Stimulating Factor (GM-CSF) or placebo.At 3-month follow-up, treadmill walking performance was not improved by GM-CSF [47].

Exercise Rehabilitation
Exercise rehabilitation programs have been found to increase walking distance in patients with intermittent claudication through improvements in peripheral circulation, walking economy, and cardiopulmonary function [48].The optimal exercise program for improving claudication pain distance in patients with PAD uses intermittent walking to near-maximal pain during a program of at least 6 months [49].Strength training is less effective than treadmill walking [50].The 2013 ACC/AHA guidelines recommend a supervised exercise program for patients with intermittent claudication with a class I indication [8].
Supervised exercise training is recommended for a minimum of 30-45 minutes in sessions performed at least 3 times per week for a minimum of 12 weeks [8] and preferably for 6 months or longer [49].In patients with PAD, self-directed walking exercise performed at least 3 times weekly is associated with less functional decline during the subsequent year [51].A home-based walking exercise program improved walking endurance, physical activity, and speed in patients with PAD and should be used in patients unwilling to participate in a supervised exercise training program [52].

Foot care
Patients with PAD must have proper foot care [8,53].They must wear properly fitted shoes.Careless nail clipping or injury from walking barefoot must be avoided.Feet should be washed daily and the skin kept moist with topical emollients to prevent cracks and fissures, which may have portals for bacterial infection.Fungal infection of the feet must be treated.Socks should be wool or other thick fabrics, and padding or shoe inserts may be used to prevent pressure sores.When a wound of the foot develops, specialized foot gear, including casts, boots, and ankle foot arthoses may be helpful in un-weighting the affected area.

Lower Extremity Angioplasty and Bypass Surgery
Indications for lower extremity percutaneous transluminal angioplasty or bypass surgery are 1) incapacitating claudication in persons interfering with work or lifestyle; 2) limb salvage in is persons with limb-threatening ischemia as manifested by rest pain, non-healing ulcers, and/or infection or gangrene; and 3) vasculogenic impotence [54].The 2013 ACC/AHA guidelines recommend that endovascular procedures are indicated for patients with a vocational or lifestyle-limiting disability due to intermittent claudication when there is an inadequate response to exercise or drug therapy and a very favorable risk-benefit ratio with a class I indication [8].Revascularization of PAD is discussed extensively elsewhere [8,53].Volume 2016; Issue 01 Stent placement is indicated in the iliac arteries as salvage therapy for a suboptimal or failed result from balloon dilation, as primary therapy for common iliac artery stenosis and occlusions, and as primary therapy in external iliac artery stenoses and occlusions with a class I indication [8].Stents, lasers, cutting balloons, atherectomy devices, and thermal devices can be useful in the femoral, popliteal, and tibial arteries as salvage therapy for a suboptimal or failed result from balloon dilation with a class IIa indication [8].
In patients presenting with severe limb ischemia caused by infra-inguinal disease and who are suitable for either surgery or angioplasty, by-pass surgery and balloon-angioplasty are associated with similar outcomes in terms of amputation-free survival [55].Patients with intermittent claudication should be considered for revascularization to improve symptoms only in the absence of other disease that would limit exercise improvement such as angina pectoris, heart failure, chronic pulmonary disease, or orthopedic limitations [8].Endovascular intervention is not indicated as prophylactic therapy in an asymptomatic patient with lower extremity PAD (class III indication) [8].Surgical intervention is not indicated to prevent progression to limb-threatening ischemia in patients with intermittent claudication due to PAD (class III indication) [8].
Six-month outcomes from 111 patients with claudication due to aortoiliac PAD randomized to optimal medical therapy, optimal medical therapy plus supervised exercise, or optimal medical therapy plus stent revascularization showed that the greatest increase in treadmill walking performance occurred in the patients randomized to optimal medical therapy plus supervised exercise [56].Cilostazol significantly reduced angiographic restenosis after endovascular therapy for femoropopliteal lesions with provisional nitinol stenting of femoropopliteal lesions in 200 patients [57].
Women have similar procedural success as men after lower extremity interventions for PAD [58].An invasive treatment strategy improved intermittent claudication distance after 1 year in patients receiving current therapy [59].In patients with symptomatic PAD, compared with lower extremity bypass surgery, peripheral endovascular intervention was associated with fewer 30-day procedural complications, higher revascularization incidences at 1 year and at 3 years, and no difference in subsequent amputations [60].

Amputation
Nonrandomized studies have shown that both immediate and long-term survival are higher in patients having revascularization rather than amputation for limb-threatening ischemia [61,62].However, amputation of lower extremities should be performed if tissue loss has progressed beyond the point of salvage, if surgery is too risky, if life expectancy is very low, or if functional limitations diminish the benefit of limb salvage [53].

Conclusion
Smoking should be stopped and hypertension, dyslipidemia, and diabetes mellitus treated in patients with PAD.Patients with PAD should be treated with atorvastatin 40 mg to 80 mg daily or rosuvastatin 20 mg to 40 mg daily.Antiplatelet drugs such as aspirin or clopidogrel and angiotensin-converting enzyme inhibitors should be given.Beta blockers should be given if coronary artery disease, especially prior myocardial infarction, is present unless contraindicated.Cilostazol improves exercise time until intermittent claudication.Exercise rehabilitation programs should be used.Indications for lower extremity percutaneous transluminal angioplasty or bypass surgery are 1) incapacitating claudication in patients interfering with work or lifestyle; 2) limb salvage in patients with limb-threatening ischemia as manifested by rest pain, non-healing ulcers, and/or infection or gangrene; and 3) vasculogenic impotence.About half of patients with PAD are not optimally managed [5].This need marked improvement to reduce morbidity and mortality.