Buerger's
Disease, History, Diagnosis, Treatment
FREE STUDY AT THE CHOLESTEROL CENTER, JEWISH HOSPITAL,
CINCINNATI OH
(PHONE 561-585-7800, FAX 513-585-7950, EMAIL glueckch@healthall.com)
If you have well defined Buerger's disease, we may
be able to help devise a safe, case-specific medical intervention,
depending on the presence or absence of two gene polymorphisms
associated with arterial spasm, and a mutation associated with
abnormalities in homocysteine metabolism. You can call the Cholesterol
Center (513-585-7800) to make an appointment for this entirely free
study, which will take about 1.5 hours of your time and a small blood
sample. Alternatively, if you cannot get to Cincinnati, we can work with
you through the MDL laboratory of Cincinnati (513-475-6631). Have your
physician draw a 5 cc purple top tube of blood so that the crucial PCR
tests can be done and mail it unrefrigerated in a crush-proof container,
overnight or 2-day delivery to MDL, 3130 Highland Ave. Cincinnati, OH
45219.
Read more about Buerger's disease and our promising
new studies below.
HISTORY:
Buerger's disease (BD) (also known as thromboangiitis obliterans) is
a rare disorder (incidence 1/8000 people), which is much more common in
men than in women, and is closely associated with heavy cigarette and/or
cannabis smoking, or rarely, with tobacco chewing. Buerger's disease
appears to be more common in Asians and in the Middle East, is rare
among African-Americans, and is very rare in children. Buerger's
disease is characterized by severe spasm of peripheral arteries and
arterioles, usually in the feet and lower legs, but sometimes in the
arms and hands. At the same time, commonly, there is extensive blood
clotting of arteries and arterioles in the hands and feet. Oxygenated
blood cannot then get to the tissues; peripheral skin ulcers and
gangrene then develop, along with intractable pain.
In 1879, Felix von Winiwater (1829-1894) dissected and studied in
detail the amputated right leg of a 57-year old man suffering from
`spontaneous gangrene'. Histologic examination demonstrated extensive
small arterial and venous occlusions marked by hypercellular thrombus
and preservation of the internal elastic lamina. Leo Buerger
(1879-1943), working at Mount Sinai Hospital in New York, reported the
results of pathologic examination of 11 amputated limbs from young men
in whom progressive veno-occlusive disease resulted in amputations.
Buerger termed the entity `Thromboangiitis Obliterans'.
BD is seen primarily in smokers. There is a male to female
predominance of 9:1. Early in the disease patients present with isolated
episodes of superficial phlebitis and episodes of foot and leg pain.
This progresses rapidly to skin ulcers and gangrene. BD primarily
involves the lower extremities. Involvement of the only the upper
extremity is seen in 40% of patients. BD should be suspected in a young
smoker with symptoms indicative of peripheral vascular disease, with no
risk factors for atherosclerosis or thrombotic disease.
Currently, the initiating factor in BD is not known. The hypothesis is that a tobacco-related antigen initiates the pathology. BD is seen in
pipe, cigarette, and cannabis smokers, and rarely in subjects chewing
tobacco. There is a strong association between smoking and disease
progression. Improvement in symptoms is dependent on cessation of
smoking. In BD, there is an association with HLA-A9, HLA-B5, and the
combination HLA-B54 and MICA 1.4. HLA-B 12 is considered protective.
Cell mediated and antibody responses to collagen type I and III, major
constituents of the arteries have been demonstrated along with
antibodies to elastin. There is consumption of CH50 and reduced levels
of C3. To date, studies exploring the causes of BD have included few
patients and remain inconclusive. The etiologic factors in BD remain
elusive.The acute pathological lesion in BD is characterized by total
arterial luminal obliteration with a cellular thrombus containing micro
abscesses of polymorphonuclear cells surrounded by mononuclear
epithelioid cells. This is no suggestion of vessel wall necrosis. There
is preservation of the internal elastic lamina (IEL) with deposition of
IgG, IgM, IgA, C3d and C4c on the inner aspect of the IEL. Foam cells,
cholesterol clefts, fibrous intimal proliferation, hyaline degeneration
and calcifications, commonly seen atherosclerosis, are not present.MTHFR C677T homozygosity or C677T/A1298C compound heterozygosity are
associated with decreased activity of MTHFR leading to low levels of
plasma folate and hyperhomocysteinemia. MTHFR is located on chromosome
1(1p36.3); it is involved in methionine metabolism and single-carbon
transfer pathways. The population prevalence of MTHFR C677T homozygosity
is estimated to be 12% and the prevalence of MTHFR C677T/A1298C compound
heterozygosity is estimated to be 17%. Hyperhomocysteinemia is atherogenic and thrombogenic, and is associated with an increased
incidence of arterial and venous occlusive disease. Hyperhomocysteinemia
converts endothelium to a more prothrombotic state by increasing Factor
V, XII, and Tissue Factor; inhibiting thrombomodulin expression; and
decreasing Protein C activation. Homocysteine, when added to plasma, is
readily oxidized. During oxidation, superoxide anion radical and
hydrogen peroxide are generated. These are believed to account for
endothelial cytotoxicity in hyperhomocysteinemia.Nitric Oxide (NO), Endothelium-Derived-Relaxing-Factor, is a
vasodilator and paracrine molecule with pleiotropic effects including
inhibition of platelet aggregation. Endothelial dysfunction is
associated with impaired NO production. Endothelial Nitric Oxide
Synthase (eNOS), using L-arginine as the substrate, produces NO.
Superoxide anion radicals produced in the presence of
hyperhomocysteinemia react with Nitric Oxide (NO), resulting in the
formation of peroxynitirite and less bioavailability of NO.Asymmetric dimethlyarginine (ADMA), an endogenous inhibitor of eNOS,
is derived from hydrolysis of protein containing methylated arginine.
Elevated ADMA levels are present in hyperhomocysteinemia.
L-arginine enhances NO synthesis, improves endothelial dilatation,
decreases platelet aggregation, and reverses endothelial dysfunction.
Oral supplementation with folate reduces plasma homocysteine levels in
the presence of isoenzymes of MTHFR with reduced enzymatic activity.
SYMPTOMS-PHYSICAL FINDINGS:
The most characteristic features of Buerger's disease include the
following:
- Unexplained and commonly intractable pain, tenderness, or
numbness-tingling in the limbs accompanied by skin ulcers or gangrene
of the fingers or toes.
- Symptoms worse with exposure to cold and exercise.
- Reduced or absent peripheral arterial pulses
DIAGNOSIS:
The definitive diagnostic methods include an arteriogram of the
affected extremities with a concomitant Doppler ultrasound
THERAPY:
Currently, the only known therapies for Buerger's disease are
immediate cessation of smoking and supportive treatment for the skin
ulcers and gangrene; amputation is occasionally required.
NEW DIAGNOSTIC AND THERAPEUTIC INFORMATION:
Recent studies at the Cholesterol Center of the Jewish Hospital of
Cincinnati and MDL laboratories in Buerger's disease have implicated
two apparently pathoetiologic genetic polymorphisms (stromelysin-1
5A/6A, eNOS T-786C) and one gene mutation (MTHFR C677T-A1298C). The
stromelysin-1 5A/6A and eNOS T-786C polymorphisms are associated with
arterial spasm and reduced production of the body's major vasodilator,
nitric oxide (NO). The MTHFR mutation is thrombogenic and may interfere
with NO production. Documentation of these gene polymorphisms and MTHFR
mutations open new, successful, therapeutic avenues which include
15g/day of L arginine orally (to increase NO production and decrease
vasospasm), and folic acid (5 mg), vitamin B6 (100 mg), and vitamin B12
(2000 mcg) to normalize homocysteine metabolism.
E-mail: glueckch@healthall.com
or cglueck@fuse.net
Fax: 513-585-7950
