Tuesday, October 25, 2011

The uses of spinach

1-it is useful for pregnant woman for making R.B.C.because it has a lot of heme.
2- useful for weak people or those who are infected with tuberculosis, it is better to boil it with water and then drink the water after boiling.



The uses of Grape

1-for curing anemia.
2-for pregnant woman.
3-making stomach, heart and intestine stronger.
4-for thirsty.
5-activating kidney.
6-for tiredness.
7-making the person more intelligence.

Thursday, October 20, 2011

Congenital heart disease

Congenital heart disease refers to a structural or functional anomaly of the heart. Congenital heart disease is categorized into cyanotic and noncyanotic disease. Depending on the type of anomaly, patients with congenital heart disease may present at birth with frank cyanosis, heart failure, or extremis; however, many asymptomatic defects are found incidentally. Congenital heart disease occurs most commonly as an isolated defect, but it can also be a part of genetic syndromes such as Down, Turner, or Noonan. The red arrow highlights a congenital heart disease atrial septal defect (between the right and left atrium), seen on contrast-enhanced CT of the heart.



An infant is brought by his mother to the pediatric cardiologist's office for workup of transient cyanosis noted during periods of breath holding, crying, or the Valsalva maneuver. The child is otherwise healthy and growing normally. The cardiologist notes his examination to be within normal limits. He orders an echocardiogram (shown; LA, left aorta; RA, right aorta).
What is the most likely diagnosis?
A. Ventricular septal defect
B. Patent foramen ovale
C. Pulmonary hypertension
D. Tricuspid atresia



Answer: B. Patent foramen ovale
The foramen ovale is a normal fetal structure that allows oxygenated blood from the placenta to bypass the lungs by passing from the right to left atrium (arrow) and into the systemic circulation. At birth, the acute drop in pulmonary vascular resistance creates a pressure differential between the right and left sides of the heart. The increased pressure in the left heart should shut the thin remnant of the septum primum and prevent further right-to-left blood flow. Most children with patent foramen ovale are asymptomatic; however, cyanosis can occur with episodes of increased pulmonary resistance when blood is forced across the patent foramen ovale rather than into the lungs, as with breath holding, the Valsalva maneuver, and crying.



Diagnosis of patent foramen ovale is made via echocardiography and sometimes a "bubble study" (shown). A bubble study is performed by injecting an agitated mixture of saline and air into the peripheral circulation. In the presence of patent foramen ovale, bubbles can be seen crossing the septal defect (yellow arrow) entering the left atrium. In most instances, no therapy is required. Patients who have experienced paradoxical emboli (most notably a cerebral emboli) may require anticoagulation or closure of the patent foramen ovale; however, this is widely debated. Patients who participate in deep sea scuba diving should consider closure of an asymptomatic patent foramen ovale because they are at increased risk for decompression illness after dives.



A 20-month-old child presents with blue fingers and toes over the past few weeks. He has always been sickly with difficulty feeding. However, since developing blue extremities, he breathes easier and feeds without difficulty. On exam, no respiratory distress is noted, but cyanosis is evident. A holosystolic murmur is heard at the cardiac apex. Bedside hematocrit shows the child to be polycythemic. Chest radiograph shows right ventricular hypertrophy and a dilated pulmonary artery. A transesophageal echocardiogram is obtained (shown; Asc Ao, ascending aorta; PA, pulmonary artery).
What is the most likely cause of this child's cyanosis?
A. Aortic stenosis
B. Pulmonary atresia
C. Eisenmenger syndrome
D. Transposition of the great arteries


Answer: C. Eisenmenger syndrome
Eisenmenger syndrome is a sequela of a chronic left-to-right shunt, most commonly a ventricular septal defect (VSD, arrow). Pulmonary overcirculation occurs from left-to-right shunting via the more efficient pumping of the left ventricle, manifested in an infant as failure to thrive, difficulty feeding, and tachypnea. Increased blood flow induces smooth muscle proliferation of pulmonary capillaries leading to pulmonary hypertension. This induces pulmonary vascular dilation (see previous slide), increased pulmonary resistance, and eventual reversal of the shunt yielding cyanosis. Treatment is difficult once the right-to-left shunt has developed because the pulmonary changes are usually irreversible. (LV, left ventricle; RV, right ventricle)



A 9-year-old girl reports that she cannot keep up during play and that her feet are "always freezing" compared with her hands. On exam, the physician notes a short stature, wide shoulders, and webbing of the neck. Her cardiac exam is without murmur, but the blood pressure in her right arm is 146/79 mm Hg and in the right thigh is 91/45 mm Hg. By palpation, her femoral pulse is delayed compared with her radial artery pulse. The physician orders numerous diagnostic tests including an aortic angiogram (shown).
What is the most likely diagnosis causing the patient's symptoms?
A. Coarctation of the aorta
B. Hypoplastic left heart syndrome
C. Aortic stenosis
D. Patent ductus arteriosus (PDA)



Answer: A. Coarctation of the aorta
Coarctation of the aorta is a constricted aortic segment (red arrows), often occurring just distal to the branch point of the left subclavian artery. Symptoms depend on the degree of impediment to flow and include left ventricular hypertrophy, upper extremity hypertension, acute congestive heart failure, and shock. In neonates with critical limits to blood flow through the aorta, closure of the ductus arteriosus at birth can cause abrupt onset of heart failure and shock. Because aortic outflow is acutely diminished, left heart pressure rises secondary to the elevated afterload and blood begins to engorge the left atrium. Elevated left heart pressures can cause new left-to-right shunting through the foramen ovale



Children with coarctation are often asymptomatic, and diagnosis is commonly incidental after noting differences in blood pressure or pulse between the upper and lower extremities. Children may present with leg pain or weakness with exertion. Chest radiograph may show "rib notching" (arrows) as engorged intercostal collateral arteries notch out portions of the inferior border of the ribs. Coarctation is a common manifestation in Turner syndrome (XO karyotype in girls) as in the previous case. Treatment is surgical; however, medical stabilization and presurgical optimization with prostaglandin E1 to either prevent closure or reopen the ductus arteriosus to improve postcoarctation blood flow has become the mainstay of treatment. Image courtesy of Radiopaedia.



A 32-week gestation premature infant is examined in the nursery and found to have a persistent "machinelike" holosystolic murmur heard best over the left sternal border. She has persistent tachycardia and is developing signs of heart failure. An aortogram of her heart is obtained (shown) with dye injected into the descending aorta (PA, pulmonary artery; DAo, descending aorta).
What anomaly is highlighted by the white arrow and is most likely the cause of her symptoms?
A. Aortic stenosis
B. Pulmonary atresia
C. Coarctation of the aorta
D. PDA



Answer: D. PDA
PDA is a persistent fetal connection between the pulmonary artery and the descending aorta. In fetal life, blood is diverted from the pulmonary (high-resistance) to the systemic (low-resistance) system via the ductus. With expansion of the lungs at birth, resistance in the pulmonic system falls below the systemic system and flow passively increases to the lungs. Risk factors for pathologic PDA include prematurity, maternal rubella infection, or exposure to prostaglandins. Symptoms of PDA are based on the degree of blood flow, most commonly a machinelike murmur, but also heart failure due to volume overload. Once recognized, treatment is surgical with ligation of the PDA. Image courtesy of Wikimedia Commons.



Hypoplastic left heart syndrome is a rare congenital defect caused when the left side of the heart underdevelops, resulting in thickened and fibrous left ventricular walls and a slitlike ventricle (star). The mitral and aortic valves may be completely atretic. In fetal life, a PDA allows retrograde filling of the ascending aorta, the brachiocephalic vessels, and coronary vessels, whereas anterograde flow fills and supplies the descending aorta because left ventricular outflow is not adequate. At birth, children can be at risk for coronary or cerebral ischemia if retrograde flow through the PDA is not sufficient to properly perfuse the myocardium and cerebral tissue.



A 26-month-old child is brought to the pediatrician by his mother, who states that he has episodes after crying or eating when his fingertips, toes, and lips become blue (shown). He has passed out after crying spells, and she notes that he is constantly squatting. When he was in the nursery after birth, the mother was told that the baby had a "heart problem with a murmur" but she never followed up. The child has delayed growth and a systolic murmur.
What is the most likely diagnosis?
A. Coarctation of the aorta
B. Tetralogy of Fallot
C. Congenital mitral valve stenosis
D. Hypoplastic left heart



Answer: B. Tetralogy of Fallot
Tetralogy of Fallot consists of 4 anatomic anomalies: (1) right ventricular outflow tract obstruction, (2) right ventricular hypertrophy (demarcated in yellow), (3) a VSD (red arrow), and (4) an anterior shifted aorta "overriding" the VSD (blue arrow). The right ventricular outflow obstruction can vary from mild stenosis of the pulmonary outflow tract to complete pulmonary atresia. All forms of right ventricular outflow obstruction decrease blood flow to the pulmonary system; increase resistance in the right heart during systole, yielding right ventricular hypertrophy; and increase passage of deoxygenated blood across the VSD to the left heart, aorta, and systemic circulation.



Tetralogy often presents with cyanosis in the neonatal period as the PDA closes. However, some children with either less severe right heart outflow obstruction or sufficient aortopulmonary collaterals tolerate tetralogy for the first few years of life. As these children outgrow the collateral blood supply, they are susceptible to cyanotic episodes. They present with "tet spells" or periods of cyanosis (fingertips, toes, and lips) associated with periods of agitation, as described in the previous case. Children may squat to increase peripheral vascular resistance (afterload), which will reduce the amount of blood freely moving through the VSD and force more blood into the pulmonary vasculature.



A 1-month-old infant presents to the emergency department with peripheral cyanosis, diaphoresis, and tachypnea. On exam, the respiratory rate is 56 breaths per minute and rales are heard throughout the lung fields. High-flow oxygen provides some improvement. ECG shows left atrial and ventricular enlargement, and the chest radiograph shows cardiomegaly; increased pulmonary vascular markings; and a large, right-sided aortic arch. The child is stabilized and admitted where a cardiac MR image is obtained (shown; A, ascending aorta; P, pulmonary trunk).
What is the lesion causing this child's symptoms?
A. Aortic stenosis
B. Hypoplastic right heart
C. Truncus arteriosus
D. Patent foramen ovale



Answer: C. Truncus arteriosus
Truncus arteriosus is a rare congenital heart disease occurring in 5-10 of 100,000 births in the United States. A single great artery (TA, truncus arteriosus) leaves the base of the heart giving rise to the ascending aorta, pulmonary trunk, and coronary arteries. Because of mixing of the outflows of the right (venous) and left heart (oxygenated) blood within the truncus, systemic hypoxia and cyanosis paired with pulmonary vasculature overload and congestive heart failure develop. Early operative repair is the mainstay of treatment. Prenatal diagnosis by ultrasound has allowed for better perinatal surgical planning and increased infant survival (A, aorta; PA, pulmonary artery).



An infant born 10 hours ago suddenly develops profound cyanosis. The prenatal course was significant only for maternal diabetes. The physician suspects a cardiac anomaly, but the cardiac echocadiographic lab is down and instead orders a STAT angiogram (shown). The contrast is injected directly into the right ventricle and the outflow tract is highlighted as above.
What is the most likely cardiac anomaly?
A. Hypoplastic left heart
B. Transposition of the great arteries, with the aorta arising from the right heart and the pulmonary trunk from the left heart
C. Atrial septal defect
D. Coarctation of the aorta



Answer: B. Transposition of the great arteries, with the aorta arising from the right heart and the pulmonary trunk from the left heart
Oxygenated blood enters the left heart and is pumped to the lungs via the abnormal pulmonary trunk, whereas venous blood entering the right heart is pumped back into the systemic circulation via the aberrant aorta, bypassing the lungs. This pattern of flow is incompatible with life and requires immediate surgical repair at birth. In the angiogram shown, contrast injected into the RV travels directly to the ascending aorta (AAo) and then to the subclavian (Sc) and carotid (Car) arteries. Note the paucity of contrast in the pulmonary circulation, as there is no mixing of oxygenated and deoxygenated blood.



The anomaly pictured (large white arrow) is a congenital heart disease almost always accompanied by an atrial septal defect (ASD) (usually a patent foramen ovale), ventricular septal defect, hypertrophied right atrium (RA), and a hypoplastic right ventricle (RV). The left ventricle (LV) is responsible for pumping blood through the pulmonary system (made capable by VSD) and systemic circulation (through the normal aorta). However, blood is chronically desaturated secondary to mixing of venous and oxygenated blood.
What is the most likely defect?
A. Transposition of the great arteries
B. Pulmonary atresia
C. Mitral valve atresia
D. Tricuspid atresia



Answer: D. Tricuspid atresia
The term tricuspid atresia describes several anomalies of the tricuspid valve, including the muscular or fibrous form of valve or the fused leaflet form of valve. Blood returning to the right atrium cannot flow to the right ventricle, and all blood must pass through an ASD (white dotted arrow above) to the left atrium, where it flows through the normal mitral valve and into the left ventricle. In order to reach the lungs, blood must be pumped through a PDA or from the left ventricle across a VSD (pictured) into the right ventricle outflow tract and through the pulmonary valve into the pulmonary circulation. Image courtesy of Wikimedia Commons.



The altered circulation in patients with tricuspid atresia not only creates a mixing of deoxygenated and oxygenated blood within the left heart, but precipitates right atrial hypertrophy in order to pump blood across the ASD (red arrow) into the left heart circulation with resulting right ventricular hypoplasticity (black arrow). Clinical findings include cyanosis, heart failure, and a murmur associated with ASD and VSD (holosystolic crescendo/decrescendo murmur). ECG will show signs of right atrial enlargement (tall P waves) and left-axis deviation secondary to the hypoplasticity of the right ventricle. Treatment is surgical, with a common approach connecting the right atrium to the pulmonary trunk to circulate deoxygenated blood directly to the lungs.



An 8-year-old boy is brought to the emergency department by emergency medical services (EMS) after experiencing syncope during gym class at school. He was found unresponsive and asystolic by EMS. Despite the best resuscitative efforts of the emergency department staff, they were not able to regain a spontaneous pulse. Upon autopsy, the valvular defect pictured above is discovered.
What was the most likely cause of this child's death?
A. Aortic valve stenosis
B. Mitral valve prolapse
C. Pulmonary atresia
D. Tricuspid insufficiency



Answer: A. Aortic valve stenosis
Pediatric aortic stenosis causes varying degrees of obstruction of left ventricular outflow. Most commonly, the normal tricuspid aortic valve arises as a bicuspid valve with a fused junction between leaflets and a displaced/stenotic opening (outlined in yellow). Left ventricular hypertrophy develops, placing children at risk for cardiac ischemia because increases in myocardial oxygen demand during growth spurts or exercise cannot be met by the hypertrophied left heart. Failure to meet oxygen needs results in symptoms of easy fatigability, anginal chest pain, and syncope during exercise. Children are at risk for sudden cardiac death. On exam, a systolic ejection murmur and palpable thrill at the suprasternal notch are common.



Two other related congenital defects are subaortic and supra-aortic valvular stenosis. Subaortic stenosis results from an anatomic obstruction to the left ventricular outflow tract causing turbulence to flow. Repeated trauma against the valve damages leaflets and causes regurgitation. Left ventricular hypertrophy develops to overcome turbulence and the resulting aortic insufficiency. Supravalvular aortic stenosis (red arrows) is a narrowing of the ascending aorta distal to the valve. Stenosis results in increased pressures and dilation within the coronary system, increasing the risk for atherosclerotic disease. Also common is elevated blood pressure in the right upper extremity due to preferential direction of the blood flow through the stenotic portion of aorta into the brachiocephalic artery.


26.

Thursday, October 13, 2011

10 Common Myths, Misconceptions, Errors and Mistakes about Chronic Cough


1. Thinking you have to 'just live with' a chronic cough, or that it is somehow 'normal.'
There is a medical cause for virtually every chronic cough, and no patient should just accept the cough unless it has been thoroughly evalutated by a physician and all measures taken to eradicate it.

2. Assuming the cough 'must come from the lungs' or is a 'lung condition'.
While many cases of chronic cough are from lung conditions, the vast majority are not. Most cases of chronic cough arise from post nasal drip, which in turn is from inflammation of the nasal passages and/or sinuses.

3. Undertreating the condition.
Often a doctor will prescribe medicine but the patient doesn't take it, or doesn't take it for the right length of time, or in the proper dose. Some coughs require a long time before they fully respond to treatment. A corollary of this error is when the physician doesn't give 'enough' medication or undertreats the cough (e.g., some cases of chronic sinusitis require 3 weeks of antibiotics, but only a week is prescribed; sometimes the dose of steroids given for chronic sinsuitis is too low).

4. Smoking while suffering from chronic cough.
I see many patients who continue to smoke while complaining of chronic cough. Sure, they admit to being addicted, or "I just can't stop", but there is still no excuse. Smoking could either be the direct cause of chronic cough (from chronic bronchitis), or greatly retard recovery from sinusitis/rhinitis (cigarette smoke impairs clearing of mucus). I tell my patients it's like complaining of a headache while banging your head with a hammer. Duh!

5. Fear of prescribing oral steroids.
Doctors are often reluctant to prescribe oral steroid medication (prednisone, methylprednisolone), yet many times it is the only drug that will effectively treat chronic upper airway inflammation. Steroids are effective for two out of the three most common causes of chronic cough (PND and asthma) and are also effective for many cases of bronchitis. As to side effects, the aim is to use oral steroids for less than two weeks; a short period will greatly minimize the side effects. If steroids work, the degree and rapidity of response will help to confirm the diagnosis; if they fail, little will have been lost. If the cough comes back off oral steriods, an inhaled steroid can be tried next, which might be effective and will have much less long term side effects.

6. Using second generation antihistamines for non-allergic rhinitis.
Second generation antihistamines (Allegra, Claritin, Zyrtec) are for allergic rhinitis .Yet they are often prescribed for patients with who do not have allergic cause of chronic cough; the drugs are ineffective in such cases.

7. Not considering dual causes of chronic cough.
In fact, many patients have more than one cause of their chronic cough. As a result, the cough may only partially improve with specific treatment. Rather than abandoning that treatment, another cause should be considered. Often, simply adding another drug, even if empiric treatment, will help treat the cough.

8. Diagnosing GERD to the exclusion of other causes without appropriate studies
GERD (gastroesophageal reflux disease) is a fashionable diagnosis, and is surely over diagnosed. To be certain of GERD, the patient should have a gastric pH study, which requires a stomach tube and in fact is rarely done. Instead, the diagnosis is often made by looking in the back of the throat for acid effects (an unreliable method), or by obtaining a history of heart burn or worsening of cough on recumbency (also unreliable for diagnosis of GERD-related cough). Such incorrectly-diagnosed patients are often treated with anti-GERD drugs. The main problems with this 'shoot from the hip' approach are that: a) GERD is an uncommon cause of chronic cough and on a purely statistical basis is unlikely to be the cause; and, b) the most common cause (PND) will not be considered, delaying proper treatment.

9. Not obtaining sinus CT scan or ordering just plain x-rays of sinuses.
The best way to reliably diagnose sinusitis is to get a sinus CT scan. We do a simple 'screening CT' which is just a few views of the sinuses, and sufficient for ruling out or diagnosing sinusitis. Plain x-ray of the sinuses is not nearly as good as a simple screening CT, and cannot be used to rule out sinusitis if it is negative. This opinion is at odds with a study that appeared in the medical journal Chest ( The Role of Sinus Imaging in the Treatment of Chronic Cough in Adults, Pratter MR, et. al. Chest 1999;116:1287-1291. ) In that study, done on only 36 patients, 35 had plain sinus x-rays and one had a sinus CT scan; no patient had both. The authors report that "no cases of sinusitis were missed" by the plain sinus x-rays. However, 5 patients did not improve, and thought the clinical course suggested sinusitis was not the diagnosis, there is really no way to know since the gold standard for imaging the sinuses (the CT scan) was not done. Also, the authors did not address the issue of cost, as many patients with a plain sinus film end up having a CT done later on. The point is: if you are going to do an x-ray of the sinuses, and CT imaging is available, DO NOT WASTE TIME AND MONEY on plain x-ray; just get the CT scan.

10. Not following through to resolution.
Too often the patient or physician gives up on chronic cough. There is a diagnosable cause of almost every case of chronic cough. Don't give up.

RHINITIS/SINUSITIS ---> POST-NASAL DRIP ---> COUGH


The major causes of rhinitis/sinusitis are viral infection, bacterial infection, allergy, and blockage [from various causes] of natural openings between the nose and sinuses. Many patients referred for chronic cough, and the vast majority have rhinitis/sinusitis with post nasal drip as the cause. Most referred patients with chronic cough do not have asthma or any lung disease as a cause.
Unfortunately there is much confusion and disagreement among physicians about diagnosis and treatment of upper airway inflammation. Confusion is mainly about diagnosis, disagreement mainly about treatment.

What are the 'upper airway' and 'lower airway'?
The respiratory system extends from the mouth and nose down to the tiny sacs in the lungs (called alveoli) where oxygen is transferred into the blood stream. The respiratory system is one continuous tract, designed to bring in air from the atmosphere and deliver fresh oxygen to the blood. It traverses the head, neck and chest.
To illustrate the division of the respiratory system, put a finger at the top of your breast bone, at the base of your neck; you can feel a 'notch' at this point (called the surprasternal notch). Above the notch is the upper airway system, encompassing the nose, mouth, sinuses, back of the throat, larynx (voice box), and trachea. Below the notch (and inside your chest) is the lower airway system, which includes both lungs and all their branching airways; these airways are called bronchi and bronchioles, and they lead to the alveoli where fresh oxygen actually enters the bloodstream.

The respiratory system consists of upper and lower divisions. Air passages in the neck and head are the 'upper airway system' and include the nose, mouth, sinuses, back of the throat (including epiglottis), larynx (voice box), and trachea. Passages below the neck - the lungs and its branching airways - comprise the 'lower airway system'.

What is the confusion in regards to cough?
In regards to cough, the main source of confusion is the common assumption among both patients any many health care providers that the cause 'must come from the lungs.' This assumption on the part of many physicians, which often leads to erroneous diagnosis, can be traced to inadequate teaching in medical school and post-graduate training programs. 

How does upper airway inflammation cause cough?
Since the respiratory tract is one system, any disease or condition affecting the topmost part (i.e., the nose and sinuses) can affect any lower part by GRAVITY. Remember, the system is open and continuous from the nose and sinuses down to the smallest division of the lungs (the alveoli). GRAVITY, plus the common tendency of mucus to form in the nose and sinuses, is why the most common cause of chronic cough is rhinitis and sinusitis.
While the most common source of mucus is in the nose and sinuses, the major cough centers are in other parts of the respiratory system; they are in the back of the throat (pharynx), the voice box (larynx), the wind pipe (trachea), and large airways of the lungs (bronchi). When mucus drips down from the nose and sinuses and touches these cough centers, nerves are stimulated that cause cough. (Mucus can also form in the lungs, which is the case in patients with asthma and chronic bronchitis. When that happens nerves in the bronchi are stimulated, resulting in cough.)
Mucus dripping from the nose or sinuses is called post nasal drip (PND). PND is the most common cause of chronic cough. If mucus stayed in the nasal passages and sinuses -- if it did not drip into the back of the throat and down toward the lungs -- then rhinitis and sinusitis would be an uncommon cause of cough.

What are the main conditions of the upper airway that cause cough?
The main conditions are 'rhinitis' and 'sinusitis'. In fact, many (if not most) patients who have one also have the other, i.e., rhinosinusitis, but for now it will be useful to categorize them separately.
TD>
RHINITIS
SINUSITIS
DEFINITION
Inflammation of the nasal passages
acute: < 3 weeks
chronic: >=3 weeks
Inflammation of the sinuses (air cavities in the head)
acute: < 3 weeks
chronic: >=3 weeks
SYMPTOMS
'Cold symptoms': stuffy nose, nasal discharge, feeling of mucus in back of throat (post nasal drip), cough
Same as rhinitis, plus: facial pain, fever, more severe or intractable cough. Most patients with sinusitis will have nasal inflammation as well (i.e., rhinosinusitis). Note: the only symptom of many patients with chronic sinusitis may be chronic cough.
MAJOR CAUSES
Viral infection, allergy, rarely bacterial infection
Viral infection, bacterial infection, fungal infection, allergy, blockage by polyps. Sinusitis becomes 'chronic' when there is inadequate treatment and/or inadequate drainage of sinuses
TREATMENT
Extremely variable: OTC decongestants, nasal sprays, prescription decongestants commonly prescribed. The longer symptoms continue, the more likely antibiotics will be prescribed.
Antibiotics are mainstay of treatment of bacterial sinusitis; however, because it is difficult to differentiate viral from bacterial sinusitis, virtually all patients with "sinusitis" or "rhinosinusitis" are treated with antibiotics. Also used are same drugs and remedies given for rhinitis. In addition, oral steroids (prednisone, methylprednisolone) are often used for chronic sinusitis, to decrease the inflammation.
RELATIONSHIP TO ASTHMA
Viral infection is a major cause of asthma, so viral rhinitis may be a prelude to asthma attacks in susceptible patients (mainly people who already have a history of asthma). Asthma can also develop following viral rhinitis. Finally, some patients suffering primarily from asthma also have concomitant rhinosinusitis.
Viral infection is major cause of asthma, so viral sinusitis may be a prelude to asthma attacks in susceptible patients (mainly people who already have a history of asthma). Asthma can also develop following sinusitis. Finally, some patients suffering from asthma also have concomitant rhinosinusitis.

How common are these conditions?
Very common. Statistics can be viewed from a disease perspective and also from a symptom perspective.
Disease perspective
    • Virtually every adult gets 1-3 "colds" a year (children get more). In 1996, the primary diagnosis of rhinosinusitis led to expenditure of $3.39 billion in the U.S. (Ray NF, Baraniuk JN, Thamer M, et. al. Healthcare expenditures for sinuitis in 1996; contributions of asthma, rhinitis, and other airway disorders. J Allergy Clin Immunol 1999;103:408-414.)
    • Chronic sinusitis affects an estimated 37 million Americans a year, and is the most common chronic condition for which people seek medical attention. 
    • People suffering from sinusitis miss on average 4 days of work per year due to their condition.
    • Approximately 0.5 to 2% of colds and influenza-like illnesses are complicated by acute bacterial sinusitis in adults (Berg O, Carenfelt C, Rystedt G, et. al. Occurrence of asymptomatic sinusitis in common cold and other acute ENT infections. Rhinology 1986;24: 223-225.)
    • The annual incidence of acute community-acquired bacterial sinusitis (a subset of all sinusitis) is alone about 20 million cases in the United States.
    • 200,000 endoscopic sinus operations (for chronic sinusitis) are performed yearly in the U.S.
Symptom perspective

Aren't there other causes of cough besides upper airway inflammation?
Yes, definitely. First, virtually any lung disease can cause cough, including asthma, a common cause of chronic cough. All lung infections can cause cough (pneumonia, influenza, tuberculosis, acute bronchitis). Cigarette smokers often have chronic cough, called 'smoker's cough' (actually chronic bronchitis). Other conditions not associated with the lungs can cause cough, including acid reflux from the stomach, and certain medications (particularly blood pressure medications called "ACE inhibitors"). While there are in fact numerous causes of cough (and a physician will consider them to arrive at proper diagnosis), by far the most common is upper airway inflammation, or rhinosinusitis

So what's the most common cause of chronic cough?
When all studies on adults are analyzed the most common cause is post nasal drip (PND), mucus dripping from the nose and/or sinuses into the back of the throat, and then down into the larynx, trachea and lungs.PND FROM RHINITIS &/OR SINUSITIS IS THE MOST COMMON CAUSE OF CHRONIC COUGH IN ADULTS. It is not asthma or acid reflux, or pneumonia, or cancer, or drug reaction. (Also, chronic cough is virtually never a psychological problem; there is always a physical cause.)
Various studies show anywhere from 38% to 87% of cases of chronic cough are from post nasal drip (either the sole cause of a major contributor; see following references):
In my experience, the higher number for PND (87%) is closer to what we see in actual practice. The number two cause in various studies is asthma (ranging from 14% to 43%), followed by gastroesophageal reflux (10% to 40%), and chronic bronchitis (0 to 12%). The higher numbers add up to more than 100% since multiple causes of cough were found in many patients.
In these and other studies, more than one cause of chronic cough was found in 18% to 72% of patients. Given that multiple causes are often present, treatment for one condition (e.g., post-nasal drip) may improve cough but not cure it until another cause is found and treated (e.g., acid reflux).

What about in children?
According to Dr. Irwin, the most common cause of chronic cough in children is asthma, followed by PND and then GERD. (See Irwin RS. Silencing Chronic Cough. Hospital Practice, January 1999.)

Is GERD (gastro-esophageal reflux disease) a common cause of chronic cough?
No. In fact, GERD is probably the most over-diagnosed cause of chronic cough. (Note: In Great Britain and other countries the condition is known as GORD, because it is spelled gastro-oesophageal reflux disease.) GERD is a 'fashionable' diagnosis, often rendered by doctors after just a throat exam, or sometimes not even that. In fact GERD is uncommon (as a cause of chronic cough) and difficult to diagnose. To be certain of the diagnosis the patient has to undergo an uncomfortable stomach acid study, where a tube is inserted into the stomach to measure acidity. More commonly, the diagnosis is assumed and the patient is treated empirically with a drug to combat the acid. The best drugs for GERD are called 'proton pump inhibitors', which include:
They are all effective, and the one prescribed seems to depend as much on formulary considerations (i.e., cost to the health care provider) as on physician preference.

What is the most common cause of chronic cough in other countries?
Same as in the U.S. Several foreign studies present results that are typical of what we see in a non-academic outpatient practice. One study, from Italy ( Causes of chronic persistent cough in adult patients: the results of a systematic management protocol. Marchesani F, et. al. Monaldi Arch Chest Dis 1998 Oct;53(5):510-4) found the following causes of chronic cough (mean duration of cough 32.7 months!) in 87 patients:
- sinusitis or chronic rhinitis plus post-nasal drip in 56% of patients
- chronic bronchitis in 18%
 
- asthma in 14%
- gastro-esophageal reflux (GERD) in 5%
- post nasal drip and GERD in 6%
- asthma and GERD in 1%
By applying specific therapy the authors were able to successfuly cure the cough in 79/87 patients (91%).
Another study, from Saudi Arabia found the following diagnoses (either sole or contributory cause) in 100 outpatients with chronic cough:
- rhinosinusitis in 60%
- asthma in 26%
- gastro-esophageal reflux in 9%
- postinfectious cough in 8%
- bronchiectasis in 5%
(Chronic cough at a non-teaching hospital: Are extrapulmonary causes overlooked?, by Al-Mobeireek AF, et. al. Respirology 2002 Jun;7(2):141-146)
The authors concluded: "chronic persistent cough is a common benign disorder that rarely requires specialized investigations and is easily treated once the causes are identified. The multiplicity of causes and extrapulmonary triggers of chronic persistent cough, particularly rhinosinusitis, are often overlooked. The principal causes in our series remain the same as in studies elsewhere, namely rhinosinusitis, asthma and GERD."
These two foreign studies are in line with experience in the U.S. The majority of patients with chronic cough have rhinosinusitis.

What is the most common cause of rhinosinusitis?
By far the most common cause is the same as that for the common cold: viral infection. Most viral infections, especially the common cold, are not treated with antibiotics. However, bacterial infections are treated with antibiotics. If the symptoms are confined to the nasal passages, and are typical of a common cold, and go away or abate in a few days, the patient should not be treated with antibiotics. However, if the symptoms suggest the sinuses are involved (e.g., facial pain, fever, expectoration of phlegm that looks like pus), then the patient may have a bacterial infection, and will likely need antibiotics. In truth, doctors can't distinguish between viral and bacterial causes of sinusitis. For this reason virtually all patients diagnosed with 'sinusitis' (acute or chronic) receive an antibiotic.

Why is treatment of rhinosinsitis so variable?
Variation in treatment is due to several factors:
    • There is no practical way to reliably distinguish between 'viral' and 'bacterial' infection of the upper airway, so the 'diagnosis' of a given patient's problem may vary among physicians.
    • Even accepting a specific diagnosis, there are no treatment guidelines universally accepted by the medical community.
    • There are a plethora of drugs available to treat rhinosinusitis; within each category of therapy (decongestants, nasal sprays, expectorants, and antibiotics) are numerous brands and dosage schedules.Many patients get better without treatment, including most patients with viral infection, and even a substantial percentage of patients with acute bacterial sinusitis -- up to 47% in one study (Sinus and Allergy Health Parnership. Antimicrobial treatment guidelines for acute bacterial rhinosinusitis. Otalyngol Head Neck Surgery 2000;123:S1-S32).
    • Different specialties approach the problem differently. For example, in one study ENT physicians were far more likely than family practice physicians to: order sinus x-rays; use topical decongestants; and use saline (salt water) nasal irrigation (Werning JW, et al. Physician specialty is associated with differences in the evaluation and management of acute bacterial rhinosinusitis. Arch Otolaryngol Head Neck Surg 2002;128:123-130.) In this study there were no significant differences in diagnosis and management by family physicians and general internists.
A given patient with upper airway inflammation -- visiting a family practice physician, an internist, an ENT physician, an allergist, and a pulmonary specialist -- could well end up on 5 different regimens for the same symptoms! In fact, all five specialties do get involved in treating patients with rhinitis/sinusitis/chronic cough. To this end, throughout my web site you will find links to other web sites, articles, and books authored by or for the different groups of treating physicians.
It is common for patients with chronic cough to be referred to another physician, which explains why pulmonary specialists see so many patients with this complaint. Allergists also get a lot of referrals for this problem. Allergists and pulmonologists refer cough patients as well, especially to ENT physicians. And ENT physicians who cannot help a problem through surgical means will often refer the patient to a pulmonary specialist, allergist, or back to the original primary care doctor.
The result is that patients with chronic cough of more than a month's duration will invariably see at least two different doctors, sometimes three. The root problem is that chronic cough can be difficult to both diagnose (especially if there is more than one cause) and treat (treatment is often a process of trial and error).

What is the relationship of rhinosinusitis and asthma?
In a word, complex. Asthma is a disease manifested by excessive mucus production in the lungs. In fact most asthmatics also have mucus in their sinuses. Usually this is from a viral infection or allergy, the same conditions that most commonly trigger an asthma attack. Thus patients 'with asthma' will commonly also have inflammation of their sinuses.
On the other hand, rhinitis and sinusitis can be the triggers of asthma. That is, patients without any asthma history can develop asthma AS A RESULT OF rhinitis and/or sinusitis. Simplistically, this seems to occur from constant dripping of mucus into the lungs, triggering an asthma reaction. The actual mechanism, however, is unknown.
Sometimes asthma is treated maximally and still doesn't get better. When this happens, we will often check to see if the sinuses are 'impacted' or blocked to the extent that they are continuing to cause asthma symptoms despite maximal treatment. Sinusitis is definitely one of the conditions doctors need to evaluate in cases of intractable asthma .
Note that DRUGS USED TO TREAT ASTHMA are different from DRUGS FOR RHINOSINUSITIS, with one exception: steroids. Steroids, also called 'corticosteroids', include the drugs prednisone and methylprednisolone [Medrol Dose Pak]). Steroids are commonly used for both severe asthma and protracted rhinosinusitis.

How is sinusitis diagnosed?
Symptoms and physical exam may suffice to make the diagnosis. Facial pain, purulent nasal discharge, fever, headache, chronic cough -- all suggest the diagnosis and warrant treatment. When symptoms are not clear cut, physicians will often order x-rays of the sinuses. There are two types -- conventional sinus x-rays, now infrequently used and considered by some as obsolete; and sinus CT scan, which gives a far better picture of the sinues than conventional x-ray. An abnormal sinus CT scan, along with compatible symptoms will suffice to make the diagnosis. A third way is for an ENT surgeon to put a probe into the sinus openings (going through the nose) to see if pus is coming out of the openings (other physicians generally do not do this procedure).

What is an example of specific treatment of chronic cough due to upper airway inflammation?
A 43-year-old woman was evaluated for chronic cough of a month's duration. It started with a 'cold', for which she took OTC medication. When the cold didn't get better, she was given a course of the antibiotic azithromycin, by her primary care physician. The cough improved a little, but when the antibiotic stopped the cough recurred. She was then referred.
She gave no history of asthma or any respiratory disease. She is a non-smoker and her husband does not smoke. She gave no symptoms to suggest stomach acid reflux. She is on blood pressure medication, but not the type typically associated with cough.
Her cough is mainly dry, i.e., not productive of mucus. Yet she often feels mucus "dripping down the back of my throat," as she explaied. She is not ill and is able to work full time as a librarian. However, the cough is quite bothersome, and colleagues at work have commented on it often. She is at her 'wit's end' about what to do.
Exam is mostly unremarkable. There is minimal nasal congestion but she can breathe through her nose. There is no sinus tenderness. Her ears are normal and her lungs are clear. A chest x-ray two weeks ago was read as normal.
Diagnosis: Probable rhinosinusitis, starting out as a viral infection, now complicated by inflammation in the sinuses and back of the nose, dripping into her lungs and causing chronic cough.
AT THIS POINT TREATMENT WOULD LIKELY VARY AMONG PHYSICIANS. BASED ON MY EXPERIENCE I WROTE PRESCRIPTIONS FOR THE FOLLOWING.
1) Augmentin, 875 mg twice a day for 10 days, in case there was any on-going bacterial process.
2) Prednisone, 20 mg twice a day for three days, followed by 20 mg once a day for three days, followed by 10 mg a day for three more days, then stop the drug. A short course of prednison is virtually free of side effects and is an excellent drug for chronic inflammation.
I also recommended an over the counter decongestant, such as sudafed, twice a day, and a hot steamy shower once a day, with expectoration of as much nasal mucus as possible.
She returned a week later 'all better.' At that point she was almost finished with the prednisone and antibiotic, and had stopped the OTC decongestant. I told her to call me if the cough recurs.

What about treatment failures?
These, unfortunately, are not uncommon.
A 48-year-old man was evaluated for chronic cough "for the past three months." He gave a history of 'sinus infections' yearly for several years, but said "this is the worst." He had already had two courses of antibiotics, each for 10 days, with no improvement. He had not been prescribed prednisone.
I put him on an aggressive course of therapy, and told him if he was no better in a week, that I would do a CT of the sinsuses and perhaps refer him to an ENT surgeon. I stared him on antibiotic Levaquin 500 mg a day, plus prednisone at 20 mg twice a day for a full week. I also gave him a nasal steroid medication to use daily (Flonase), AND a decongestant to use in case there was an allergic component (Claritin-24).
He returned the following week minimally improved. As planned, I sent him for a sinus CT scan. The scan showed impacted maxillary sinuses with 'air-fluid' levels, indicating severe chronic sinusitis, plus extensive mucus in his sphenoid and ethmoid sinuses. There sinuses were so blocked that antibiotics and steroids and decongestants simply could not be effective. He was sent to an ENT surgeon who recommeneded surgery to relieve the blocked sinuses.

What is the role of surgery in chronic sinusitis?
Surgery is reserved for those patients who don't respond to extensive treatment with medication, such as the above patient. 'Extensive treatment' means, usually, at least three weeks of antibiotics, steroid medication (prednisone or methylprednisolone), and daily decongestants. Patients are considered for surgery if they remain symptomatic and a CT scan shows the sinuses are not draining. At that point the decision regarding surgery will be up to the patient and his or her ENT physician (of all physicians who treat sinusitis, only ENT physicians operate).
For more information on sinus surgery see When should surgery be considered?

How successful is sinus surgery?
Statistics are hard to come by, for two principal reasons: there are multiple types of surgery, depending on the nature of the disease, and "success" depends on who you ask. A 50% reduction in patient symptoms may be deemed successful by some patients/doctors, and a failure by other patients/doctors. Suffice to say that sinus surgery is not usually 100% successful in alleviating all symptoms of chronic sinusitis.
The most common type of surgery is probably endoscopic surgery for maxillary sinusitis (the sinuses behind the cheek bones). One surgeon acknowledged that "a significant number of patients have persistent maxillary symptoms after one or more endoscopic sinus operations," and identified 10 different reasons .