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 Equine Restrictive Lung Disease

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5 مشترك
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وليد القيسي
طبيب بيطري متميز
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الدلو عدد المساهمات : 513
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تاريخ الميلاد : 14/02/1965
تاريخ التسجيل : 13/03/2010
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مُساهمةموضوع: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالأربعاء ديسمبر 22, 2010 6:40 pm

Equine Restrictive Lung Disease, Part 1: Overview
R. D. Nolen-Walston and C. R. Sweeney
Section of Clinical Studies, New Bolton Center, School of Veterinary Medicine, University of Pennsylvania, Kennett
Square, PA, USA.

Restrictive lung diseases are those in which the lung volumes are reduced, either because of alteration in lung parenchyma
or because of the diseases of pleura, chest wall, or neuromuscular apparatus. Physiologically, restrictive lung diseases are
defined by reduced total lung capacity, vital capacity and resting lung volume (Functional Residual Capacity, FRC), but
with preserved airflow and normal airway resistance. If due to parenchymal lung disease, restrictive disorders are
accompanied by reduced gas transfer and may be marked clinically by desaturation with exercise.
Restrictive diseases can be categorized as intrinsic lung disease (diseases of the lung parenchyma) or extrinsic disorders
(extra-parenchymal diseases).
Intrinsic lung diseases cause either inflammation and or scarring of the lung tissue (interstitial lung disease), or fill the air
spaces with exudate and debris (pneumonitis).
Extrinsic disorders affect the chest wall, pleura and respiratory muscles which are components of respiratory pump - their
normal function needed for effective ventilation. Diseases of these structures results in lung restriction, impair ventilatory
function and may lead to respiratory failure. These disorders can be further grouped as non-muscular diseases of the chest
wall and the neuromuscular disorders. The most common extrinsic disorders responsible for restrictive lung disease in
humans are abnormal configuration of thoracic cage (such as kyphoscoliosis or ankylosing spondylitis) and morbid obesity,
both disorders not recognized in the horse. The most common extrinsic non-muscular disorders of the horse are
pleuropneumonia and thoracic neoplasia. The most common extrinsic neuromuscular disorder seen in the horse is equine
botulism.
The restrictive lung disorders of the horse discussed in this chapter will include pleuropneumonia and interstitial lung
disease. To read about parenchymal diseases, readers are referred to other chapters in Equine Respiratory Diseases (Foal
Pneumonia; Parasitic Airway Disease and Fungal Airway Diseases; Bacterial Infections Including Mycoplasmas).
Pathophysiology
Air flows to and from the alveoli as lungs inflate and deflate during respiratory cycle. Lung inflation is accomplished by
contraction of respiratory muscles, diaphragm, and external intercostal muscles, whereas deflation is passive. Functional
residual capacity (FRC) is the volume of air in lungs when the respiratory muscles are fully relaxed and there is no airflow.
The size of FRC is determined by the balance of inward elastic recoil of the lungs and the outward elastic recoil of the chest
wall. Restrictive lung diseases are characterized by reduction in FRC and other lung volumes because of pathology in
lungs, pleura or the structures of the thoracic cage. The distensibility of the respiratory system is called compliance, this
being the volume change produced by a change in the distending pressure. The compliance of lungs is independent from
the thoracic cage which is a semi-rigid container. The compliance of intact respiratory system an algebraic sum of the
compliances of both of these structures, and therefore will be influenced by any of the diseases of the lungs, pleura and
chest wall.

Intrinsic Disorders
The physiological effects of diffuse parenchymal disorders are reduction in all lung volumes which is produced by the
excessive elastic recoil of the lungs in comparison to the outward recoil forces of the chest wall. The expiratory airflows are
reduced in proportion to the lung volumes. Arterial hypoxemia in these disorders is primarily caused by
ventilation/perfusion mismatching with further contribution made by intrapulmonary shunt. There is impaired diffusion of
oxygen, which contributes a little towards hypoxemia at rest, but is primarily the mechanism of exercise-induced
desaturation. Hyperventilation at rest and exercise is caused by the reflexes arising from the lung, and the need to maintain
minute ventilation by reducing tidal volume and increasing respiratory frequency.

Extrinsic Disorders
Disorders of the pleura and thoracic cage decrease total compliance of respiratory system and hence reduce the lung
volumes. As a result of atelectasis of the alveoli, gas distribution becomes non-uniform, resulting in ventilation perfusion
mismatch and hypoxemia. The respiratory pump may be impaired at the level of the central nervous system, spinal cord,
peripheral nerve, neuromuscular junction or respiratory muscle. The pattern of v
entilatory impairment is highly dependent
on the specific neuromuscular disease

Equine Restrictive Lung Disease, Part 2: Pleuropneumonia
R.D. Nolen-Walston and C. R. Sweeney

Section of Clinical Studies, New Bolton Center, School of Veterinary Medicine, University of Pennsylvania, Kennett Square, PA, USA.

Introduction
Bacterial pleuropneumonia, frequently referred to as pleuritis, is a common and often severe disorder of horses [1-8]. The condition involves bacterial colonization of the pulmonary parenchyma, development of pneumonia and/or pulmonary abscesses, and subsequent extension to the visceral pleura and pleural space. In humans it is noted that up to 40% of patients with bacterial pneumonia have accompanying pleural effusions [9]. While similar data is not available for the horse, the increased use of thoracic ultrasound has documented that pleural effusion is not uncommon in any horse with pneumonia and is not restricted to those horses with severe pleuropneumonia [10].

Pathogenesis
The first stage of bacterial pleuropneumonia is an exudative stage characterized by rapid outpouring of sterile pleural fluid into the pleural space in response to inflammation of the pleura. The associated pneumonic process is usually contiguous with the visceral pleura and results in increased permeability of the capillaries in the visceral pleura. If appropriate antimicrobial therapy is initiated at this stage the pleural effusion may progress no further.

With progression the bacteria invade the pleural fluid from the contiguous pneumonic process and the second, fibropurulent, stage evolves. This stage is characterized by the accumulation of large amounts of pleural fluid with many neutrophils, bacteria, and cellular debris. Fibrin is deposited in a continuous sheet covering both the visceral and parietal pleural in the involved area. As this stage progresses, the tendency is for loculation and the formation of limiting membranes. These loculations prevent extension of the empyema, but make drainage of the pleural space with chest tubes increasingly difficult.

The last stage is the organization stage in which fibroblasts grow into the exudate from both the visceral and parietal pleura surfaces and produce an inelastic membrane called the pleural peel (Fig. 1). This inelastic pleural peel encases the lung and renders it virtually functionless. At this stage the exudate is thick.

Figure 1. Postmortem findings of thick pleural peel on surface of right lung. Left lung surface is normal. To view click on figure
.Although pleuropneumonia can occur spontaneously, it is often associated with a stressful event such as transportation over an extended distance [1] or recent illness from acute viral disease. It is most commonly seen in Thoroughbred and Standardbred racehorses. Aspiration of pharyngeal secretions may play a significant role in the etiology of pleuropneumonia, as suggested by the bacterial populations responsible for pleuropneumonia. Transportation of horses usually involves an elevation in environmental temperature and relative humidity and an increase in the number bacterial organisms in the air. These changes, combined with the stress of transportation, may predispose the animal to development of lower respiratory disease. The aerobic bacteria most commonly involved in equine pleuropneumonia include β-hemolytic Streptococcus spp., Pasteurella spp., Actinobacillus spp., E. coli and Klebsiella pneumoniae. The majority of the horses have a mixed infection, with both aerobic and anaerobic bacteria. Commonly isolated anaerobes include Bacteroides spp. and Clostridium spp. A wide variety of other anaerobes are commonly found in these horses [2].

Clinical Signs
Clinical signs include fever, anorexia, depression, cough, respiratory distress, stiff gait, weight loss, sternal or limb edema and colic. In the acute stage of pleuritis, pain in the thorax may be elicited by palpation over the thoracic wall. Pain is demonstrated by grunts, intercostal muscle spasm, or even escape maneuvers by the patient. Horses may abduct their elbows and have a "catch" to inspiration. As more fluid accumulates in the pleural space and the disease becomes chronic, pain is less evident. Auscultation of a horse with pleuropneumonia reveals a normal lung sound in the dorsal lung field with no sounds or only bronchial-tracheal sounds heard ventrally. Pleural friction rubs are often not heard because they are present only in the acute stage of the disease. If they are heard, friction rubs are present predominantly at the end of inspiration and the early part of expiration. They disappear as inflammation decreases or as pleural fluids accumulate. Cardiac sounds are often heard over a wider area of the chest than normal, probably as a result of enhanced conduction of sound through the pleural fluid. Thoracic percussion frequently confirms the impression gained from auscultation. Pleural effusion causes a dullness of the ventral aspects of the lung field and is often delineated by a horizontal line (Fig. 2). Absence of adventitial sounds on auscultation (especially if performed in noisy barns) should not be considered evidence of normality. If a clinical suspicion of pneumonia remains despite unremarkable auscultation, a re-breathing examination, sonographic evaluation, or transtracheal aspirate should be performed to definitively rule out pneumonia.

Figure 2. Horse with pleural effusion secondary to pleuropneumonia. Horizontal line marked by tape indicates fluid level in thorax detected by auscultation and percussion. To view click on figure
.Diagnostic Procedures
Thoracic Ultrasonography - Thoracic ultrasonography [10-14] is currently regarded as the preferred method to diagnose pleuropneumonia in the horse. While the value of the art of thoracic auscultation and percussion should not be undermined, clinicians managing horses with thoracic disease recognize the limitations of these tools. With the widespread use of thoracic ultrasound, the equine practitioner currently has the ability to determine not only the presence of pleuropneumonia, but also the location and the extent of the disease. Although sector scanners are superior (preferably 3.5 - 5.0 MHz transducers), linear probes can also be used to evaluate the thorax in practice.
Thoracic ultrasonography in horses with pleuropneumonia allows the clinician to characterize the pleural fluid and to evaluate the severity of the underlying pulmonary disease [14]. The appearance of the pleural fluid may range from anechoic to hypoechoic, depending on the relative cellularity (Fig. 3). This fluid is usually found in the most ventral portion of the thorax and causes compression of normal healthy lung parenchyma with retraction of the lung toward the pulmonary hilus. The larger the effusion, the greater the amount of compression atelectasis and lung retraction that occurs.

Figure 3. Sonographic appearance of large volume of anechoic pleural fluid. To view click on figure
.The presence of adhesions, pleural thickening, pulmonary necrosis and compression atelectasis can also be detected [14]. Fibrin has a filmy to filamentous or frond-like appearance and is usually hypoechoic (Fig. 4).

Figure 4. Sonographic appearance of fibrin on visceral and parietal pleura in horse with severe pleuropneumonia. To view click on figure
.Fibrin is deposited in layers or in web-like filamentous strands on surfaces of the lung, diaphragm, pericardium, and inner thoracic wall limit pleural fluid drainage [14]. Dimpling of the normally smooth pleural surface results in the appearance of "comet-tail" artifacts, created by small accumulations of exudate, blood, mucus, or edema fluid. Pulmonary consolidation varies from dimpling of the pleural surface to large, wedge-shaped areas of sonolucent lung. Atelectic lung is sonolucent and appears as a wedge of tissue floating in the pleural fluid. Necrotic lung appears gelatinous and lacks architectural integrity. Peripheral lung abscesses are identified ultrasonographically by their cavitated appearance and the absence of any normal pulmonary structures (vessels or bronchi) detected within. While detection of a pneumothorax may be easy for the experienced ultrasonographer it is not as easy for the less experienced. The gas-fluid interface can be imaged moving simultaneously in a dorsal to ventral direction with respiration, the "curtain sign" reproducing the movements of the diaphragm (Fig. 5).

Figure 5. Sonographic appearance of pneumothorax. To view click on figure
.The dorsal air echo moves ventrally during inspiration, similar to the lowering of a curtain, gradually masking the underlying structures. A pneumothorax without pleural effusion is even more difficult to detect ultrasonographically. While free bright gas echoes within the pleural fluid can occur following thoracocentesis, they are more often seen with anaerobic infections or when sufficient necrosis has occurred in a segment of parenchyma to erode into an airway and form a bronchopleural fistula (Fig. 6). The absence of gas echoes in pleural fluid does not rule out the possibility that anaerobic infection may be present.

Figure 6. Sonographic appearances of free gas echoes within the pleural fluid of horse with severe pleuropneumonia. To view click on figure
.Ultrasonography is a valuable diagnostic aid in the evaluation of the pleura, lung, and mediastinum of horses with pleuropneumonia. The detection and further characterization of the above abnormalities improve the clinician's ability to form a more accurate prognosis. Adhesions can be detected which ultimately may affect the horse's return to his previous performance level. Horses with compression atelectasis and a non-fibrinous pleuritis have an excellent prognosis for survival and return to performance. The detection of areas of consolidation, pulmonary necrosis, or abscesses all increase the probable treatment and recovery time and the prognosis for survival decreases as they become more extensive. Ultrasonography can be used as a guide to sample or drain the area with a large fluid accumulation or the least loculation. These patients often benefit from progressive scanning to assess response to treatment and the need for drainage.

Thoracic radiography is often limited by the availability of facilities. Radiography has particular utility in demonstrating parenchymal disease which is not apparent sonographically if it is not contiguous with the lateral pleural surfaces or the lung.

If pleural effusion is identified, thoracocentesis should be considered for both diagnostic as well as therapeutic reasons. In the acute stages of pleuropneumonia with small volumes of pleural effusion, thoracocentesis is not necessary if the horse is improving or is not showing signs of respiratory distress. Moderate amounts of pleural effusion may be resorbed quite readily. However, if fluid accumulates rapidly, if the horse is in respiratory distress, or if its condition deteriorates, thoracocentesis should be performed. The preferred site is generally identified with the aid of ultrasonography, but is usually the sixth or seventh intercostal space just dorsal to the palpable costochondral junction. Choosing a site farther caudal may provide a sample but does not allow adequate drainage of the chest. When attempting to aspirate pleural fluid from a horse with a minimum amount of effusion, one should choose a space no farther back than the sixth or seventh intercostal space. If the procedure has caused some trauma, the first fluid obtained may be blood tinged, but this clears as more fluid is withdrawn. If the pleural fluid is blood tinged because of the underlying disease process, the red coloration persists throughout the entire procedure. Prior to draining the contralateral side, it is advisable to re-evaluate the fluid level sonographically. In some cases, mediastinal communication is adequate to allow both hemi-thoraces to be drained using a thoracostomy tube. An aliquot of pleural fluid is transferred from the syringe into tubes containing anticoagulant solution (EDTA) so that appropriate laboratory evaluation may be performed. Part of the fluid should be saved in sterile containers with transport media for subsequent Gram stain and culture. Fluid should be removed as long as it flows freely.

The color, turbidity, viscosity and odor of the pleural fluid should be noted (Fig. 7). Normal pleural fluid is clear and yellow; cloudiness reflects an increased number of white blood cells (WBC). Putrid-smelling pleural fluid is a hallmark of anaerobic infection; however, the absence of odor does not exclude anaerobic infection. In addition to the odor of the pleural fluid, the odor of the horse's breath should be noted, particularly after coughing. The majority of horses with anaerobic infections have a putrid odor associated with the pleural fluid or breath. These horses have a low survival rate.

Figure 7. Abnormal appearing pleural fluid from horse with pleuropneumonia. To view click on figure
.The WBC count of normal pleural fluid is generally less than 10,000/ul. The WBC count of pleural fluid in pleuropneumonia can range from 1600 to 300,000 cells/ul, varying in the same pleural fluid sample between the beginning and the end of the thoracocentesis. There is no association between the WBC count in pleural fluid and survival. Pleural fluid protein is greater than 3 g/dl in horses with pleuropneumonia, but this is also not a prognostic indicator.

Pleural fluid should be Gram stained and cultured for bacteria. The Gram stain may provide tentative identification until culture results are obtained. Both aerobic and anaerobic cultures should be performed. Anaerobes occur in 46% of horses with pleuropneumonia. The pleural fluid used for anaerobic cultures should be transferred to the laboratory immediately after collection in a manner that prevents or minimizes exposure to air. Anaerobic transport media is commercially available and should be routinely used. Specimens submitted for isolation of anaerobes should not be refrigerated, since many anaerobes are intolerant to cold. Isolation of anaerobic bacteria from either the pleural fluid or tracheobronchial aspirate provides a poor prognosis.
While pleuropneumonia is the most common cause of pleural effusion in the horse, the second most common cause is neoplasia. Differentiating between the two conditions is a challenge for the equine clinician as there are similarities in the clinical signs and physical examination findings. A handheld glucometer can be used to compare glucose concentrations of pleural fluid to serum; typically septic effusions will have glucose concentrations significantly lower than blood levels due to bacterial consumption.

Pleuropneumonia effusions are more likely to have abnormal nucleated cell count greater than 10,000/ul (usually greater than 20,000) with greater than 70% neutrophils. Bacteria are frequently seen both intra and extracellularly. A putrid odor may be present. Neoplastic effusions have variable nucleated cell count. If caused by lymphosarcoma, there may be a predominance of abnormal lymphocytes. However, neoplastic cells are often not readily apparent and a definitive diagnosis may be difficult. Rarely do neoplastic effusions have a putrid odor nor have bacteria seen cytologically.

Tracheobronchial aspirate provides an excellent specimen for Gram stain and bacterial culture. This can be achieved percutaneously with minimal equipment, or using a triple-guarded catheter trans-endoscopically. Using the former method, care must be taken that the catheter is not retroflexed into the pharynx or normal oral flora will contaminate the sample. This can be minimized by using an anti-tussive such as butorphanol (5 - 20 mg IV) given at least 10 minutes prior to sampling.

Pleuroscopy, a procedure in which a flexible or rigid endoscope is introduced into the pleural space, has been described as a useful adjunct to the diagnosis as well as treatment of bacterial pleuropneumonia, aiding in assessment and identification of disease, drainage of abscesses or loculated fluid and adhesion transection. [15].

Hematologic findings in horses with pleuritis are usually nonspecific and do not predict the outcome of the case. A low hematocrit (less than 30%) usually reflects an anemia of chronic disease, whereas elevated total plasma proteins (greater than 8 g/dl) are probably caused by hypergammaglobulinemia. Both these findings suggest that the pleuropneumonia is chronic. White blood cells counts can be misleading, since not all affected horses have leukocytosis. Plasma fibrinogen appears to be a more sensitive indicator of inflammation because it is elevated in almost all cases of pleuropneumonia. Recent descriptions of the use of serum amyloid A and plasma surfactant D levels as a sensitive and more specific indicator of pneumonia have been described, but are not routinely used. [16].

Management
The primary goals of managing a horse with pleuropneumonia are to stop the underlying bacterial infection, remove excess inflammatory exudate from the pleural cavity, and provide supportive care. Ideally an etiologic agent is identified from either the tracheobronchial aspirate or pleural fluid, and antimicrobial sensitivity determined. It is not unusual for the tracheal aspirate and pleural effusion to contain different populations of bacteria. Ideally, both samples should be cultured if available, either individually or batched. Without bacterial culture results, broad-spectrum antibiotics should be used because many horses have mixed infections of both gram-positive and gram-negative and aerobic and anaerobic organisms. Commonly used therapy is penicillin combined with an aminoglycoside such as gentamicin, or broad-spectrum agents such as trimethoprim and sulfamethoxazole, ceftiofur, or chloramphenicol. Enrofloxacin can be given parenterally or orally, but due to its lack of coverage against Streptococcus species, it is not recommended as a single agent unless Streptococcal disease has been ruled out[17]. Rifampin may be a useful addition to antimicrobial regimens if there is extensive abscessation or tissue necrosis as it has excellent penetration; however, it is not suitable as a single agent therapy as resistance forms very rapidly against it in the absence of additional antimicrobials. Because of the need for long-term therapy, initial intravenous or intramuscular antimicrobials may need to be followed by oral antimicrobials. In addition to systemic therapy, the use of gentamicin via nebulization has been shown to provide therapeutic levels within bronchial fluid while resulting in minimal serum concentration [18]. This may be a useful alternative in horses where systemic aminoglycoside therapy is contraindicated due to its nephrotoxic properties.

Treatment of anaerobic pleuropneumonia is usually empiric, since antimicrobial susceptibility testing of anaerobes is difficult because of their fastidious nutritive and atmospheric requirements. Thus familiarity with antimicrobial susceptibility patterns is helpful in formulating the treatment regimen when an anaerobe is suspected. The majority of anaerobic isolates are sensitive to relatively low concentrations of aqueous penicillin (22,000 IU/kg bwt, IV four times per day). Bacteroides fragilis is the only frequently encountered anaerobe that is routinely resistant to penicillin, although other members of the Bacteroides family are known to produce β lactamases and are potentially penicillin-resistant. Chloramphenicol (50 mg/kg, orally four times per day) is effective against most aerobes and anaerobes that cause equine pleuropneumonia. Metronidazole has in vitro activity against a variety of obligate anaerobes including B. fragilis. Pharmacokinetic studies indicate a dose of 15 mg/kg intravenously or orally, four times a day, is necessary to maintain adequate serum levels. Oral administration rapidly results in adequate serum levels and thus is an acceptable route of administration for horses with pleuropneumonia. Metronidazole is not effective against aerobes and therefore should always be used in combination therapy with the above mentioned drugs for aerobes. It is important to recognize the side effects of metronidazole, including loss of appetite and lethargy, and to stop the use of the drug when these signs are observed. Aminoglycosides and enrofloxacin should not be considered for the treatment of pleuropneumonia caused by an anaerobe unless it is used in combination therapy (i.e., with penicillin).

Other Therapies
Antimicrobial therapy should be continued until the fibrinogen has normalized, and radiographic or sonographic evidence of resolution has been achieved. Anti-inflammatory agents help reduce pain and may decrease the production of pleural fluid. This in turn may encourage the horse to eat and maintain body weight. Flunixin meglumine (500 mg once or twice daily) or phenylbutazone (1 to 2 g twice a day) is commonly used for this purpose. If significant pleurodynia persists or NSAIDs are contraindicated for renal on gastrointestinal reasons, the use of fentanyl patches is a costly but often effective addition. Corticosteroids are not typically used in bacterial pleuropneumonia in veterinary patients due to concern of immunosuppression in the face of bacterial infection. Human medicine is beginning to provide some data that low dose and short duration corticosteroid use may reduce mortality in severe pneumonia [19], but there is still not sufficient information to make a recommendation for its us in equine medicine. Rest and the provision of an adequate diet are important components of the treatment of pleuropneumonia. Because the disease course and period of treatment are usually prolonged, attempts should be made to encourage eating. However, often patients with pleuropneumonia lose significant body condition score prior to close attention being made to their caloric intake. It is worthwhile evaluating feed consumption and considering a calorie-dense diet within the first days of treatment. Intravenous fluids may be indicated in the acute stages of the disease to treat dehydration from anorexia and third-space losses into the thorax. In patients with severe gram-negative disease, evidence of endotoxemia and laminitis should be watched for closely and preventative measures taken at the first signs of disease.

Following selecting of an appropriate anti-microbial agent, the next decision to be made is whether to drain the pleural space [20]. Ideally the decision is based on an examination of the pleural fluid. If the pleural fluid is thick pus, drainage using a chest tube should be initiated. If the pleural fluid is not thick pus, but the Gram stain is positive and WBC counts are elevated, pleural drainage is recommended. Another indication for therapeutic thoracocentesis is the relief of respiratory distress secondary to a pleural effusion. There are many options for thoracic drainage including the following: intermittent chest drainage, indwelling chest tube (Fig. Cool, pleural lavage, pleuroscopy and debridement, open chest drainage/debridement - no rib resection (standing), open chest drainage/debridement - rib resection (standing), open chest drainage and debridement (general anesthesia), and lung resection (general anesthesia).

Figure 8. Chest tube drainage of pleural fluid in horse with severe pleuropneumonia. To view click on figure
.Drainage of a pleural effusion can be accomplished by (1) using a cannula, (2) indwelling chest tubes or (3) thoracostomy. Thoracostomy [15,21] is generally reserved for severe abscessation of the pleural space or treatment of extensive adhesions. Thoracocentesis is easily accomplished in the field and may not need to be repeated unless considerable pleural effusion re-accumulates. Indwelling chest tubes are indicated when continued pleural fluid accumulation makes intermittent thoracocentesis impractical. If properly placed and managed, they provide a method for frequent fluid removal and do not exacerbate the underlying pleuropneumonia or increase the production of pleural effusion. The chest entry site and end of the drainage tube must be maintained aseptically. A one-way flutter (Heimlich) valve may be attached to allow for continuous drainage without leakage of air into the thorax. If a thoracostomy tube is placed aseptically and managed correctly, it can be maintained for several weeks. It should be removed as soon as it is no longer functional. Heparinization of tubing after drainage helps maintain patency. Local cellulitis may occur at the site of entry into the chest, but is considered a minor complication. Bilateral pleural fluid accumulation requires bilateral drainage in most horses.

Open drainage or thoracostomy may be considered when tube drainage is inadequate. It is important not to begin open drainage too early in the disease. An incision is made in the intercostal space with or without rib resection exposing the pleural cavity and causing a pneumothorax, unless the visceral and parietal pleura adjacent to the drainage site have not been fused by the inflammatory process. The wound is kept open for several weeks while the pleural space is flushed and treated as an open draining abscess. Some clinicians advocate placing an open thoracostomy tube (no valve) the day prior to a standing thoracotomy to ensure that the horse can tolerate the unilateral pneumothorax prior to surgery.

Pleural lavage may be helpful to dilute fluid and remove fibrin, debris and necrotic tissue. Lavage appears to be most effective in sub acute stages before loculae develop; however, pleural lavage may help break down fibrous adhesions and establish communication between loculae. Care must be exercised that infused fluid is communicating with the drainage tube. Lavage can be performed by infusing fluid through a dorsally positioned tube and draining it through a ventrally positioned tube. Ten liters of sterile, warm lactated Ringer's solution is infused into each affected hemithorax by gravity flow. After infusion, the ventrally placed chest tube is opened and the lavage fluid is allowed to drain. Pleural lavage is probably contraindicated in horses with bronchopleural communications because it may result in spread of septic debris up the airways. Coughing and drainage of lavage fluid from the nares during infusion suggests the presence of a bronchopleural communication. Therapeutic bronchoalveolar lavage (BAL) has been reported to be successful in reducing mortality and morbidity in horses with transport-associated pneumonia [22], but this technique has not yet gained widespread acceptance.

Prognosis
Prognosis for life and return to performance is largely dependent on severity of disease and type of organism cultured. In studies, overall survival is 43 - 88% [23,24], but generally considerably lower for animals with anaerobic disease [2]. Horses with compression atelectasis and a non-fibrinous pleuritis have an excellent prognosis for survival and return to performance. In addition, one study found that horses with pulmonary abscessation had a 90% survival rate [1]. Data regarding post-pneumonia performance is variable, but generally approximately half of thoroughbreds and a majority of Standardbreds were successfully returned to racing, with the effect on performance being variable but not devastating [1,25].

Equine Restrictive Lung Disease, Part 3: Interstitial Diseases
R.D. Nolen-Walston and C. R. Sweeney


Introduction
Interstitial lung disease comprises an ill-defined group of pulmonary disorders that are chronic with insidious progression to pulmonary fibrosis [1]. These diseases are characterized morphologically by a derangement of alveolar structure and a loss of functional gas exchange units. It may lead to life threatening respiratory distress due to hypoxemia which results from a progressive limitation of oxygen transfer from air to blood [2-4]. The causes of interstitial lung disease are numerous and include infectious agents and toxins. There are probably two types of equine interstitial lung disease: One in foals and one in the adult horse. In foals, the disease appears as an acute respiratory distress syndrome in foals aged 1 to 8 months (Fig. 1). Adult horses with interstitial lung disease may have clinical signs resembling those of heaves. Most cases of interstitial lung disease in adult horses are of unknown causes although EHV-5 has recently been implicated as a possible etiologic agent [5,6] . The diagnosis is based on history, clinical signs, thoracic radiographs, serology, lung biopsy and cytologic evaluation and PCR of bronchioalveolar lavage or tracheal bronchial fluid. A lung biopsy may provide a definitive diagnosis, but is associated with more risk than some of the other diagnostic options.

Figure 1. Foal with respiratory distress secondary to acute interstitial lung disease. To view click on figure
.Etiology
A variety of agents can be responsible for causing interstitial lung disease in animals. Fewer than 20 agents have been implicated in horses, the most common of which are infectious agents and ingested toxins [1-3]. In horses, specific syndromes have not been identified and the suggested classification has been made to differentiate interstitial lung disease in foals from that of adult horses [7]. Viruses, immune complexes, infectious agents, and abnormalities of lung defense mechanisms have all been implicated in humans with pulmonary fibrosis [1]. The difficulty in determining the causative agent is due to the fact that the lung responds in a single manner to most injuries.

Equine Multinodular Pulmonary Fibrosis
EMPF describes a subset of interstitial lung disease in horses. Reported only in adults, cases often present in respiratory distress with a history of cough, increased rectal temperature and chronic weight loss with hyporexia. The tachypnea is often associated with moderate-to-severe hypoxemia especially if the patient presents further along in the course of disease. A neutrophilic lymphopenic leukocytosis with hyperfibrinogenemia is often present, with or without anemia. The radiographic changes seen in these cases are usually dramatic, and reflect the severity of the disease, showing a multifocal to coalescing nodular interstitial pattern (Fig. 2). Diagnosis is supported by consistent clinical signs and radiographic findings, and the presence of EHV-5 detected by PCR of either BAL fluid or biopsy samples of the lung; in one study [6] EHV-5 was identified in these samples of 79% of horses with EMPF and in 9% of controls.

Figure 2. Thoracic radiograph of a horse with chronic interstitial lung disease. Notice the typical diffuse, nodular interstitial pattern. To view click on figure
.Other Infectious Agents
Infectious agents are the most common known causes of interstitial lung disease in domesticated animals [2]. The lung disease is acute and often progressive causing severe damage to the inter-alveolar space. Reported infectious causes of interstitial lung disease in horses include viral, bacterial, parasitic, protozoal, and fungal agents [1,8-10]. Viruses have been implicated as a cause of acute severe bronchointerstitial lung disease in many foals and adult horses [1,8-10]. In most of the reported cases of interstitial lung disease, despite the use of histology, serology, and viral isolation, a viral agent was rarely confirmed. Many have speculated that there are unknown equine respiratory viruses responsible for this interstitial damage [8]. The most commonly recognized respiratory viruses, including equine influenza virus, equine herpes virus Types I and IV, rhinovirus, equine viral arteritis, equine herpes virus Type II, and equine adenovirus, during natural infection can cause mild clinical signs and may well be responsible for contributing to the development of secondary bacterial infection of the lower respiratory tract, however, they have rarely been implicated in interstitial lung disease. While bacterial infections of the lung most often result in a bronchopneumonia, bacterial agents have been isolated in horses with interstitial lung disease. Most likely these are opportunistic infections rather than the primary cause of the interstitial lung disease. It is suggested that bacteria in conjunction with another insult may induce interstitial lung disease. The protozoan Pneumocystis jiroveci (carinii) has been isolated sporadically from foals with acute interstitial lung disease [8,9,11,12]. Its role as a primary agent for interstitial lung disease is unknown and it may well be a secondary invader of some other infectious lung disease. Parasitic infestation of the lung can cause interstitial lung disease. This would include migration of ascarid larvae in foals and lungworms in adults.

Idiopathic Chronic Eosinophilic Pneumonia
The etiology of this condition is not clear, but is characterized by lower airway (BAL fluid) and peripheral eosinophilia of adult horses in the absence of identified pulmonary parasitism. Affected animals present with a history of cough and tachypnea that is non-responsive to anti-microbial therapy. In one case series all horses were from the West coast of the United States, although the distribution of incidence has not been evaluated [13].

Toxins
Toxins either ingested or inhaled can be responsible for diffuse lung injury in horses. Plants are the most commonly ingested pneumotoxin. Perilla ketone derived from the plant Perilla frutescens, is a potent pneumotoxin in many animals and has been demonstrated to cause acute restrictive lung disease in horses [2,14]. Toxicity requires further metabolism of the 3-substituted furans by a mixed-function oxidase system which probably occurs in the lungs. Ponies present with respiratory distress within a week of ingesting the plant [15]. Lesions include a diffuse alveolitis and Type II cell proliferation. This is unlike 3-methylindol which causes primarily obstructive lung disease in horses. Chronic ingestion of Crofton weed, Eupatorium adenophorum, has caused severe chronic interstitial respiratory disease in horses in Australia and Hawaii [16]. Horses initially cough and are exercise-intolerant with gradual progression to respiratory distress and failure. Lesions include alveolitis, alveolar septal fibrosis, and epithelial cell proliferation.

Pyrrolizidine Alkaloids
Pyrrolizidine alkaloids (Crotalaria spp., Senecio spp.) cause pulmonary as well as hepatocellular injury, although the amount of alkaloid required to cause lung injury is much less than the dose which is hepatotoxic [17]. The metabolically activated alkylating agent is produced in the liver and distributed to the lung via the blood stream primarily damaging capillary epithelial cells [1,17].

Inhalation of Pneumotoxic Chemicals
Inhalation of pneumotoxic chemicals is thought to be an infrequent cause of diffuse lung injury in horses. Smoke inhalation causes acute, diffuse interstitial lung disease and respiratory distress in horses [18,19]. Prolonged inhalation of greater than 80% oxygen causes acute alveolitis which is a potential problem in neonatal foals. Such changes tend to occur in an already compromised lung after several days of oxygen therapy and are believed to be due to reactive oxygen species that damage macromolecules in some membranes [20]. Agrichemicals or herbicides have the potential to cause acute interstitial lung disease in horses.

Silicosis (pneumoconiosis)
A chronic granulomatous lung disease has been associated with inhalation of forms of silicon dioxide crystals by horses from the Carmel valley region in California [21]. Silicone dioxides, which are inorganic dust, commonly found in the earth crust, are cytotoxic to macrophages as well as fibrogenic. Cristobalite is the most fibrogenic form of silicon dioxide identified. Once inhaled the particles are ingested by macrophages causing lysis of the macrophage, persistent alveolitis, and subsequent fibrosis. Multiple granulomas are present with submicron intra-cytoplasmic crystalline particles present in macrophages [21,22]. The disease in horses is similar to the chronic or accelerated form of silicosis in humans [22]. Osteoporosis in horses from the same geographic area is commonly seen in conjunction with pneumoconiosis, and is associated with non-specific stiffness or lameness, lordosis, and forward displacement of the scapulae. These changes occur most dramatically in the axial skeleton and can be identified radiographically as patchy radiolucencies or with nuclear scintigraphy [23].

Hypersensitivity Reactions
Hypersensitivity pneumonitis is a chronic, lymphocytic bronchointerstitial lung disease with granuloma formation and fibrosis [2,3]. It is caused by inhalation of organic antigens such as microorganisms or animal tissues to which the animal has become sensitized [2,3]. In humans, this disease includes farmer’s lung and chicken breeder’s syndrome. Hypersensitivity pneumonitis is rare in horses. Fungi in chicken dust were implicated in causing severe chronic bronchointerstitial lung disease in six horses [24-25]. Repeated BCG (Bacillus Calmette-Guérin) administration used as a treatment for dermal sarcoids has been associated with the development of granulomatous pneumonia, in combination with lymphadenopathy, and hepathopathy. [27].

Metabolic and toxic conditions have been associated with acute pulmonary damage in humans and animals. The pulmonary lesions are associated with endotoxemia [3,14].

Idiopathic
Most cases of interstitial lung disease in horses remain undiagnosed. There may be a different pathologic process for the interstitial lung disease in foals versus adult horses.

Pathogenesis
The pathogenesis of interstitial lung disease involves progression through four phases [3,4,8,15]. In phase I, an initial insult causes injury to parenchymal cells as well as to acute alveolitis. Phase II is a proliferative phase with cellular and connective tissue changes involving lung parenchyma. In cases of chronic infection, there is progression to phase III, which is a development of irreversible interstitial fibrosis. Phase IV is the end stage, irreparable fibrosis of the lung [1].

All of these structural changes in the lung that occur with interstitial lung disease reduce the number of functional alveoli, thus altering pulmonary function [1]. There is reduced lung compliance due to reduction in total volume of the lungs and increased transpulmonary pressure at total lung capacity [15]. Pulmonary gas exchange is impaired and this is primarily due to mal-distribution of ventilation and profusion [28]. Total and vital lung capacity is decreased due to a loss in gas exchange units and the change in the elastic properties of the lung [14]. Stiff fibrotic lungs increase the work of breathing, resulting in exercise intolerance and dyspnea. Pulmonary hypertension and cor pulmonale are occasional sequelae to interstitial lung disease in other species. It should be noted that these changes in the lung result in restrictive pulmonary disease in comparison to obstructive disease which occurs with primary airway pathology.

Diagnosis
Horses with interstitial lung disease may present with an acute to chronic history of weight loss, recurrent cough, nasal discharge, fever and respiratory distress. Foals and chronically affected adult horses may be bright and alert, despite dyspnea, and have a variable appetite [22,24,28,29]. The lung disease is generally unresponsive to antimicrobial and anti-inflammatory therapy in both adults and foals. Physical examination findings include tachypnea, tachycardia, and variable fever. Mucous membranes may be cyanotic in severe cases. There is a rapid, shallow respiratory pattern with occasional respiratory dyspnea. Diffuse crackles and wheezes may be heard on auscultation of the lung or there may be an absence of lung sounds in the presence of severe pulmonary edema. Hematologic findings may include neutrophilic leukocytosis and hyperfibrinogenemia especially with EMPF. Peripheral eosinophilia may accompany Idiopathic Chronic Eosinophilic pneumonia, hypersensitivity or parasitic pneumonitis. Arterial blood gas analysis reveals a spectrum of disorders, but hypoxemia is usually present.

Thoracic radiographs are useful to determine the presence of pulmonary disease and to monitor its course. The most common radiographic finding is severe, diffuse, nodular interstitial disease [5,7,22,29] (Fig. 3). In horses with pneumonconiosis [22] and Idiopathic Chronic Eosinophilic pneumonia [13], radiographs reveal a pattern that is more military or granular than the large semi-organized opacities that are typically noted with EMPF. Pulmonary infiltrates are often present with fungal or parasitic pneumonia. Radiographs are not a specific or sensitive method to monitor alveolitis, because the extent to which the lung shows radiographic changes does not correlate well with the severity of the disease.

Figure 3. Thoracic radiograph of a horse diagnosed with Equine Multinodular Pulmonary Fibrosis. This horse underwent lung biopsy that was positive by PCR for EHV. To view click on figure
.Culture of tracheal wash or bronchoalveolar lavage fluid in horse with interstitial lung disease often yields no significant growth of bacteria or fungal pathogens [7,9], although presence of EHV-5 by PCR is strongly suggestive of EMPF. Horses with silicosis will usually have eosinophilic crystals present within the macrophages of tracheo-broncial of BAL fluid. Ultrasonographic findings of the thorax may demonstrate changes suggestive of severe fibrosis if a sub-pleural distribution exists [29].

A trans-thoracic lung biopsy is the definitive test for diagnosing chronic interstitial lung disease [1]. A representative sample can be obtained when the lung disease is diffuse or when a lesion can be identified ultrasonographically. Samples should generally be taken from the caudal lung field (to avoid the larger vessels associated with the hilum) ideally under ultrasound guidance. Appropriate percutaneous biopsy instruments include Tru-cut or automated (spring-loaded) biopsy needle, with fewer complications seen when using the latter technique [30]. If a larger sample is necessary, thoracoscopic biopsy using a ligation loop has been described, but may be associated with more complications [31,32].

In EMPF, histopathology of biopsy or post-mortem lung samples is characterized by interstitial collagen deposition, neutrophil and macrophage accumulation within the alveoli, and type II pneumocyte hyperplasia. Significantly, occasional alveolar macrophages may contain intranuclear inclusion bodies believed to be associated with EHV-5 (Fig. 4). At necropsy, the lungs do not collapse upon opening the thorax, and show multiple firm, discrete or coalescing, tan or white nodules of 1 - 10cm diameter. Idiopathic Chronic Eosinophilic pneumonia shows smaller nodules on post-mortem with abundant collagen deposition and accumulation of eosinophils. For other forms of interstitial disease, histopathological evaluation of the biopsy during the acute phase of the disease may demonstrate coagulation necrosis of alveolar walls, hyaline membrane formation and focal hemorrhage and edema [7,9,33]. In chronic cases the biopsy may show evidence of severe fibrosing alveolitis with minimal airway involvement [7,10,28]. The interlobular septa may be thickened, alveolar fibers replaced with collagen and reticulum fibers and there may be evidence of Type II cell hypoplasia. Multi-focal granulomas and bronchiolitis may also be seen. Except in cases of EMPF, silicosis, and pneumocystis infections, biopsy rarely defines the cause of the disease [21,22].

Figure 4. Histopathology of pulmonary parenchyma in a horse with Equine Multinodular Pulmonary Fibrosis. The arrow points to an intranuclear inclusion body. (Courtesy of Dr. Julie Engiles). To view click on figure
.Treatment
With EMPF, treatment with corticosteroids and anti-viral agents is described [5], and was successful in 2/5 horses with EMPF. Suggested therapy for this disease includes intranasal oxygen support as necessary, and acyclovir (20mg/kg PO q8h) with prednisolone (1mg/kg PO q24h). In Idiopathic Chronic Eosinophilic pneumonia or other idiopathic interstitial syndromes, corticosteroids are also recommended [,9-11,13,29]. Some clinicians believe that it is advisable to treat concurrently with a broad-spectrum antibiotic as immunosuppression from the corticosteroids combined with significant structural and presumably functional lung pathology may predispose to secondary bacterial infection. While bronchodilating agents have been used in horses with interstitial lung disease their effectiveness is limited to the fact that this is a restrictive and not an obstructive condition. Corticosteroids have been recommended as a course for treatment there is no evidence to suggest that these drugs or any other anti-inflammatory agent effectively suppress the alveolitis which occurs. Treatment with inhaled nitric oxide and oral phosphodiesterase inhibitors such as sildenafil (Viagra®️) have been used to treat pulmonary hypertension in adult horses, but no data attesting to their efficacy for has been reported. For osteoporosis associated with silicosis, intravenous bisphosphonates have shown some promise, but are cost-prohibitive for most cases [34]. Preventive measures are difficult in as much as the inciting cause is rarely known.




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لو شويه متوسع بالموضوع بعد .!!!
موضوع مهم ولاشكل وبصراحه هنا التهابات الجهاز التنفسي رهيبه
لذلك اغلب ادويتنا صنعت خصيصا لمعالجة المسببات المرضيه التي تسبب اصابات الجهاز التنفسي وتحد من قدرته
شكرا دكتور وليد
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وليد القيسي
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عيوني ابو نور تعرف انته اني "مالي خلك" "ودائما احب الاختصار" هههههههههه

تحياتي ورد
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الموقع : يد اليأس والندم والمحبة,تلوّح في البعيد ,نحو جزر مستحيلة ,ومدائن، لم يبق من أرومتها غير طعم الغياب ,تمنحني مساءاتها الثقيلة ووجوهها ,وتمنحني قهوة الصباح.

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اني مااقرا مثل الناس من كنت بالكليه
عندي اسلوب منفرد بالقراءه امر عل الموضوع اسويله سكانر بصري
بعدين اعرف وين النقاط المهمه واقراها
بس موضوعك كسر اسلوبي لان السكانر طلع عاطل
خخخخخخخخخخخخخخخ
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dr.Mayce alreem
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الموقع : -الغربة ليست محطة.. إنها قاطرة أركبها حتى الوصول الأخير، قصاص الغربة، يكمن في كونها تنقص منك ما جئت تأخذ منها. بلد كلما احتضنك، ازداد الصقيع في داخلك. لأنها في كل ما تعطيك تعيدك إلى حرمانك الأول. ولذا تذهب نحو الغربة لتكتشف شيئاً... فتنكشف باغترابك.

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ابو مصطفى
انعمت عيوني...انت تخسر عيون جديده بمكانها..ههههه

موضوع حلو...عاشت ايدك والله
ممنونين

تقبل مروري..



احترامي الخالص



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هنيالج قريتيه كله
لعد شون عيون عندج ؟
اني ماشفت بس فد شيء اظلم
خخخخخخخخخخخخخ
الرجوع الى أعلى الصفحة اذهب الى الأسفل
http://يارب .... لو جدت على عبدك بالرقاد لانه يذكره السهر بانه ا
dr.Mayce alreem
طبيبة بيطرية عراقية
طبيبة بيطرية عراقية
dr.Mayce alreem


القوس عدد المساهمات : 1624
نقاط : 2120
السٌّمعَة : 11
تاريخ الميلاد : 10/12/1988
تاريخ التسجيل : 10/01/2010
العمر : 35
الموقع : -الغربة ليست محطة.. إنها قاطرة أركبها حتى الوصول الأخير، قصاص الغربة، يكمن في كونها تنقص منك ما جئت تأخذ منها. بلد كلما احتضنك، ازداد الصقيع في داخلك. لأنها في كل ما تعطيك تعيدك إلى حرمانك الأول. ولذا تذهب نحو الغربة لتكتشف شيئاً... فتنكشف باغترابك.

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 7:44 pm

عندي عيون
بس
ماعندي بخت!!





الرجوع الى أعلى الصفحة اذهب الى الأسفل
https://www.facebook.com/profile.php?id=100000873774996
وليد القيسي
طبيب بيطري متميز
طبيب بيطري متميز
وليد القيسي


الدلو عدد المساهمات : 513
نقاط : 749
السٌّمعَة : 9
تاريخ الميلاد : 14/02/1965
تاريخ التسجيل : 13/03/2010
العمر : 59

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 8:16 pm

عزيزتي ميس الله يحفظك ويحفظ عيونك
والله شسوي الموضوع اهنا عدنا بالنرويج مهم لان تعرفين تدفئه ويصير غبار داخل الحضائر وحساسيه وعالكه فقلت والله موضوع حلو خلي اذكر بيه جماعتي بس طلع مختصر مع الاسف ههههههههه

ابو نور يمكن السكانر مالك بعد ميصيرله جاره؟

تحياتي
الرجوع الى أعلى الصفحة اذهب الى الأسفل
dr.Mayce alreem
طبيبة بيطرية عراقية
طبيبة بيطرية عراقية
dr.Mayce alreem


القوس عدد المساهمات : 1624
نقاط : 2120
السٌّمعَة : 11
تاريخ الميلاد : 10/12/1988
تاريخ التسجيل : 10/01/2010
العمر : 35
الموقع : -الغربة ليست محطة.. إنها قاطرة أركبها حتى الوصول الأخير، قصاص الغربة، يكمن في كونها تنقص منك ما جئت تأخذ منها. بلد كلما احتضنك، ازداد الصقيع في داخلك. لأنها في كل ما تعطيك تعيدك إلى حرمانك الأول. ولذا تذهب نحو الغربة لتكتشف شيئاً... فتنكشف باغترابك.

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 8:26 pm

بالعكس ابو صوفي
موضوعك كلش حلو والله
ومشكور جدا جدا
تفداك العيون


الرجوع الى أعلى الصفحة اذهب الى الأسفل
https://www.facebook.com/profile.php?id=100000873774996
noor2003
طبيب بيطري عراقي
طبيب بيطري عراقي
noor2003


السرطان عدد المساهمات : 2011
نقاط : 2437
السٌّمعَة : 10
تاريخ الميلاد : 01/07/1971
تاريخ التسجيل : 05/01/2010
العمر : 53
الموقع : يد اليأس والندم والمحبة,تلوّح في البعيد ,نحو جزر مستحيلة ,ومدائن، لم يبق من أرومتها غير طعم الغياب ,تمنحني مساءاتها الثقيلة ووجوهها ,وتمنحني قهوة الصباح.

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 8:28 pm

هو من زمان ماله جاره
بس شنسوي نشتغل بالموجود
هههههههه
الرجوع الى أعلى الصفحة اذهب الى الأسفل
http://يارب .... لو جدت على عبدك بالرقاد لانه يذكره السهر بانه ا
وليد القيسي
طبيب بيطري متميز
طبيب بيطري متميز
وليد القيسي


الدلو عدد المساهمات : 513
نقاط : 749
السٌّمعَة : 9
تاريخ الميلاد : 14/02/1965
تاريخ التسجيل : 13/03/2010
العمر : 59

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 9:01 pm

ميس والله قبل شويه وصلت مصطفى للباص اللي يروح لمدينه بركن لان هو يعيش هناك ويدرس هندسه كيمياويه
سنه ثانيه
مصطفى ورده وحباب وموءمن بس كسره لكلبي اني ممتعود على فراكه من هو صغير وحمزه هم متعلق كلش بي
هسه من تسمي صوفي اتذكره من كان طفل عبالك البارحه والله كبر اخوج ابو مصطفى ياميس بعد سنه سنتين لا زم ازوجه لمصطفى

تحياتي
الرجوع الى أعلى الصفحة اذهب الى الأسفل
dr.Mayce alreem
طبيبة بيطرية عراقية
طبيبة بيطرية عراقية
dr.Mayce alreem


القوس عدد المساهمات : 1624
نقاط : 2120
السٌّمعَة : 11
تاريخ الميلاد : 10/12/1988
تاريخ التسجيل : 10/01/2010
العمر : 35
الموقع : -الغربة ليست محطة.. إنها قاطرة أركبها حتى الوصول الأخير، قصاص الغربة، يكمن في كونها تنقص منك ما جئت تأخذ منها. بلد كلما احتضنك، ازداد الصقيع في داخلك. لأنها في كل ما تعطيك تعيدك إلى حرمانك الأول. ولذا تذهب نحو الغربة لتكتشف شيئاً... فتنكشف باغترابك.

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 9:14 pm

اخويه اسمه مصطفى ومتعوده هيجي اصيحله


اخويه العزيز
هذه سنة الحياة
انت هم كنت صغير وتزوجت وعفت اهلك
هذه سلسلة غير منفصله حتى تستمر المسيرة الكونيه..
فلا تضوج وتفكر هواي
عود نفسك على فراقهم من هسه حتى ما تتفاجا

تحياتي


اختك




الرجوع الى أعلى الصفحة اذهب الى الأسفل
https://www.facebook.com/profile.php?id=100000873774996
noor2003
طبيب بيطري عراقي
طبيب بيطري عراقي
noor2003


السرطان عدد المساهمات : 2011
نقاط : 2437
السٌّمعَة : 10
تاريخ الميلاد : 01/07/1971
تاريخ التسجيل : 05/01/2010
العمر : 53
الموقع : يد اليأس والندم والمحبة,تلوّح في البعيد ,نحو جزر مستحيلة ,ومدائن، لم يبق من أرومتها غير طعم الغياب ,تمنحني مساءاتها الثقيلة ووجوهها ,وتمنحني قهوة الصباح.

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 9:17 pm

طويل العمر ياحلو
لاتخاف بعدك جذاب وحليو
حتى لو شعرك وكع وحتى لو مرتك متعينه وياك بنفس الدائره
بس هم تلفت النظر
لاتهتم ابو مصطفى
ههههههه lol!
سمعت اكو واحد ضايج اهنا
منو يعرفه؟
الرجوع الى أعلى الصفحة اذهب الى الأسفل
http://يارب .... لو جدت على عبدك بالرقاد لانه يذكره السهر بانه ا
وليد القيسي
طبيب بيطري متميز
طبيب بيطري متميز
وليد القيسي


الدلو عدد المساهمات : 513
نقاط : 749
السٌّمعَة : 9
تاريخ الميلاد : 14/02/1965
تاريخ التسجيل : 13/03/2010
العمر : 59

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 9:35 pm

الله يعطيكم العمر والعافيه
لا والله ابو نور ممهتم اللي كاتبه الله نشوفه والحمد لله

تحياتي ياورود
الرجوع الى أعلى الصفحة اذهب الى الأسفل
Dr. Tuhfa
مشرفة قسم الشعر والنثر
مشرفة قسم الشعر والنثر
Dr. Tuhfa


الثور عدد المساهمات : 1526
نقاط : 1858
السٌّمعَة : 31
تاريخ الميلاد : 20/05/1987
تاريخ التسجيل : 20/03/2010
العمر : 37
الموقع : ♥ღϠ₡ღ♥. ماجستير - أحياء مجهرية - كلية الطب - جامعة تكريت ♥ღϠ₡ღ♥

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مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالسبت يناير 15, 2011 9:41 pm

تسلم ايدك دكتور وليد..
بصراحة بهيج وقت اخترت ان اتبع طريقة السكانر
ههههههههههه بس طافية الكهرباء بالدماغ!!!
الثقة عالية بالمعلومات المطروحة
خليه عود نقراه علما تقوى الشبكة
هههههههههه

احترامي

دكتور عيسى اليوم اكثر من واحد ضايج
اكو يوم الضوجة العالمي بالتقويم لو لا؟؟


تحياتي للجميع
الرجوع الى أعلى الصفحة اذهب الى الأسفل
http://www.veterinaryknowledge.com/f7-montada
الفحص
عضو جديد
عضو جديد



الجوزاء عدد المساهمات : 5
نقاط : 5
السٌّمعَة : 0
تاريخ الميلاد : 06/06/1969
تاريخ التسجيل : 14/05/2013
العمر : 55

Equine Restrictive Lung Disease Empty
مُساهمةموضوع: رد: Equine Restrictive Lung Disease   Equine Restrictive Lung Disease Icon_minitimeالثلاثاء مايو 14, 2013 5:57 pm

كيف تقدر احمل صوره . ابي افرجيكم وياها التهاب بحلق حصان سباق بس مو عارف اشلون.
الرجوع الى أعلى الصفحة اذهب الى الأسفل
 
Equine Restrictive Lung Disease
الرجوع الى أعلى الصفحة 
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