PUSH Fitness & Rehabiliation
Welcome !! PUSH-as-Rx ®™ is leading the field with laser focus supporting our youth sport programs. The PUSH-as-Rx ®™ System is a sport specific athletic program designed by a strength-agility coach and physiology doctor with a combined 40 years of experience working with extreme athletes. At its core, the program is the multidisciplinary study of reactive agility, body mechanics and extreme motion dynamics. Through continuous and detailed assessments of the athletes in motion and while under direct supervised stress loads, a clear quantitative picture of body dynamics emerges. Exposure to the biomechanical vulnerabilities are presented to our team. Immediately, we adjust our methods for our athletes in order to optimize performance. This highly adaptive system with continual dynamic adjustments has helped many of our athletes come back faster, stronger, and ready post injury while safely minimizing recovery times. Results demonstrate clear improved agility, speed, decreased reaction time with greatly improved postural-torque mechanics. PUSH-as-Rx ®™ offers specialized extreme performance enhancements to our athletes no matter the age.

Diseases Of The Chest Approach To Diagnostic Imaging

Core Anatomy

  • Note generations of the tracheal-bronchial tree, lobes, segments, and fissures. Note secondary pulmonary lobule (1.5-2-cm)-the basic functional unit of lungs observed on HRCT. Note important structural organization of the alveolar spaces with communications in between (pores of Kohn & canals of Lambert) that permit air drift and by the same mechanism allow exudative or transudative fluid to spread through the lung and stopped at the fissure. Note the anatomy of the pleura: parietal that is a part of the endothoracic fascia and the visceral that forms a lung edge. Pleural space in between.
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  • Mediastinum: surrounded by the pleura and the lung. Accommodates major structures contains numerous lymph nodes (see diagramme showing mediastinal nodes and their involvement in Lymphoma
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General Approach to Investigating Chest Complaints

  • Radiographic examination (Chest X-ray CXR); excellent 1st step. Low cost, low radiation exposure, multiple clinical complaints evaluation
  • CT scanning: chest CT, High-Resolution CT (HRCT)
  • Chest pathology approach:
  • Trauma
  • Infection
  • Neoplasms
  • Pulmonary edema
  • Pulmonary emphysema
  • Atelectasis
  • Pleural pathology
  • Mediastinum

PA & Lateral CXR

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  • Additional views may be used:
  • Lordotic view: helps to evaluate apical regions
  • Decubitus views right and left: help to evaluate subtle pleural effusion, pneumothorax and other pathology
chest diagnostic imaging el paso tx.
chest diagnostic imaging el paso tx.
  • Normal CXR PA & Lateral views. Ensure good exposure: T-spine discs and vessels through the heart are visualized on PA view. Count 9-10 right posterior ribs to confirm adequate inspiratory effort. Begin careful survey using the following approach: Are There Many Lung Lesions A-abdomen/diaphragm, T-thorax wall, M-mediastinum, L-lungs individually, Lungs-both. Develop a good search pattern
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  • 1) Air space disease aka alveolar lung disease? filling of the lung’s alveoli, acini and subsequently the entire lobe with fluid or substance of any composition (blood, pus, water, proteinacious material or even cells) Radiographically: lobar or segmental distribution, airspace nodules may be noted, tendency to coalesce, air bronchograms and silhouette sign present. Bat wing (butterfly) distribution noted as in (CHF). Rapidly changing over time i.e. increase or decrease (days)
  • 2) Interstitial disease: infiltration of pulmonary interstitium (alveoli septum, lung parenchyma, vessel walls etc.) by for example by viruses, small bacteria, protozoans. Also infiltration by cells such as inflammatory/malignant cells (e.g. lymphocytes) Presented as accentuation of lung interstitium with reticular, nodular, mixed reticulo-nodular pattern. Different etiologies: inflammatory autoimmune diseases, fibrosing lung disease, occupational lung disease, viral/mycoplasma infection, TB, sarcoidosis lymphoma/leukemia and many other.
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  • Recognising different patterns of pulmonary disease can help with DDx. Mass vs Consolidation (left). Note different patterns of pulmonary disease: air space disease as lobar consolidation indicative of pneumonia, diffuse consolidation indicative of pulmonary edema. Atelectasis (collapse and volume loss). Interstitial patterns of pulmonary disease: reticular, nodular or mixed. SPN vs. Multiple focal consolidations (nodules) likely representing mets infiltrates vs. septic infiltrates
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  • A = intraparenchymal
  • B = pleural
  • C = extrapleura
  • Recognize important location of chest lesions
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  • Important signs: Silhouette sign: help with localization and DDx. Example: Bottom left image: radiopacity in the right lung, where is it located? Right MM because the right heart border that is adjacent to right middle lobe is not seen (silhouetted) Air bronchograms: air containing bronchi/bronchioles surrounded by fluid
chest diagnostic imaging el paso tx.

Chest Trauma

  • Pneumothorax (PTX): air (gas) in the pleural space. Many causes. Complications:
  • Tension PTX: continuous increase of air in the pleural space that rapidly compresses mediastinum and lung rapidly reducing venous return to the heart. It can be fatal if not treated rapidly
  • Spontaneous PTX: primary (young adults (30 -40) especially tall, thin men. Additional causes: Marfan’s syndrome, EDS, Homocystinuria, a – 1 -antitrypsin deficiency. Secondary: older pts with parenchymal disease: neoplasms, abscess, emphysema, lung fibrosis and honeycombing, catamenial PTX d/t endometriosis and others.
  • Traumatic pneumothorax: lung laceration, blunt trauma, iatrogenic (chest tubes etc.) acupuncture etc.
  • CXR: note visceral pleural line aka lung edge. An Absence of pulmonary tissue/vessels beyond the visceral pleural line. Subtle pneumothorax can be missed. On erect position, air rises and PTX should be sought at the top.
  • Rib fractures: v.common. Traumatic or pathological (e.g. mets, MM) Rib series x – rays are not very useful because CXR and/or CT scanning are more important to evaluate post -traumatic PTX (bottom left) lung laceration and other major path
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  • Pneumonia: bacterial vs. viral or fungal or in the immunocompromised host (e.g. Cryptococcus in HIV/AIDS) Pulmonary TB
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  • Pneumonia: community-acquired vs. hospital-acquired. Typical bacterial pneumonia or Lobar (non-segmental) pneumonia with purulent material filling the alveoli and spreading to the entire lobe. M/C organismStreptococcus Pneumonia or the Pneumococcus
  • Others: (Staph, Pseudomonas, Klebsiella esp. in alcoholics potentially leading to necroSIS/lung gangrene) Mycoplasma (20-30s) aka walking pneumonia etc.
  • Clinically: a productive cough, fever, pleuritic chest pain sometimes hemoptysis.
  • CXR: confluent airspace opacity confined to the entire lobe. Air bronchograms. Silhouette sign help with location.
  • Viral: Influenza, VZV, HSV, EBV, RSV etc. presents as interstitial lung disease that can be bilateral. May lead to respiratory compromise
  • Atypical pneumonia and Fungal Pneumonia: Mycoplasma, Legionnaire’s disease, and some fungal/Cryptococcus pneumonia may present with interstitial lung disease.
  • Pulmonary abscess: an infectious collection of purulent material in the lungs that often necrotizes. May lead to major pulmonary and system complications/life-threatening.
  • On CXR or CT: round collection with thick borders and central necrosis containing air-fluid level. DDx from empyema that distorts the lung and pleural-based
  • Rx: antibiotics, antifungal, antiviral agents.
  • Pneumonia needs to be followed up with repeat CXR to ensure complete resolution
  • Lack of radiographic improvement of pneumonia may represent declined immunity, antibiotic resistance, underlying lung carcinoma or other complicating factors

Pulmonary TB

chest diagnostic imaging el paso tx.
  • Common infection worldwide (3rd world countries). 1 in 3 persons worldwide is affected by TB. TB is caused by Mycobacterium TB or Mycobacterium Bovis. Intracellular bacillus. Macrophage plays a key role.
  • Primary Pulmonary TB & Post-primary TB. Requires repeated exposure through inhalation. In most immunocompetent hosts, the active infection does not develop
  • TB presents as 1) cleared by the host, 2) suppressed into Latent Tuberculosis Infection (LTBI) 3) cause active disease TB. Patients with LTBI are not spreading TB.
  • Imaging: CXR, HRCT. Primary TB: pulmonary airspace consolidation (60%) lower lobes, lymphadenopathy (95%- hilar & paratracheal), pleural effusion (10%). The Spread of primary TB most likely in immunocompromised and children.
  • Milliary TB: pulmonary and system complication dissemination that can be fatal
  • Post-primary (secondary) or reactivation infection: Mostly in the Apices and posterior segments of the upper lobes )high PO2), 40%-cavitating lesions, patchy or confluent airspace disease, fibrocalcific. Latent features: nodal calcifications.
  • Dx: Acid-fast bacilli (AFB) smear and culture (sputum). HIV serology in all patients with TB and unknown HIV status
  • Rx: 4-drug regimen: isoniazid, rifampin, pyrazinamide, and either ethambutol or streptomycin.

Pulmonary Neoplasms (primary lung cancer vs. pulmonary metastasis)

  • Lung cancer: m/c cancer in men and 6th most frequent cancer in women. Strong association with carcinogens inhalation. Clinically: late discovery, depending on the location of the tumor. Pathology (types): Small cell (SCC) vs. Non-small cell carcinoma
  • Small cell: (20%) develops from neuroendocrine aka Kultchitsky cell, thus may secrete biologically active substances presenting with paraneoplastic syndrome. Typically located centrally (95%) at or near the mainstem/lobar bronchus. Most show poor prognosis and unresectable.
  • Non-small cell: Lung adenocarcinoma (40%) (M/C lung cancer), M/C in women and non-smokers. Others: Squamous cell (may present with cavitating lesion), Large cell and some others
  • Plain film (CXR): new or enlarged focal lesion, widened mediastinum suggestive of lymph node involvement, pleural effusion, atelectasis, and consolidation. SPN-may represents potential lung cancer. especially if contains irregular borders, feeding vessels, thick wall, in upper lungs. Multiple lung nodules likely to represent metastasis.
  • Best Modality: HRCT with contrast.
  • Other chest neoplasms: Lymphoma is v. common in the chest especially in mediastinal and internal mammary notes.
  • Overall M/C pulmonary neoplasms are metastasis. Some tumors show a higher predilection for lung mets e.g. Melanoma but any cancer can metastasize to the lungs. Some mets referred as “Cannonball” metastasis
  • Rx: radiation, chemotherapy, resection
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  • Pulmonary edema: general term defines abnormal fluid accumulation outside vascular structures. Broadly divided into: Cardiogenic (e.g. CHF, mitral regurgitation) and Non-cardiogenic with multitude of causes (e.g. fluid overload, post-transfusion, neurological causes, ARDS, near drowning/asphyxiation, heroin overdose, and others)
  • Causes: increased in Hydrostatic pressure vs. decreased in oncotic pressure.
  • Imaging: CXR and CT: 2-types Interstitial and Alveolar flooding. Imaging presentation depends on stages
  • In CHF: Stage 1: redistribution of vascular flow (10- 18-mm Hg) noted as “cephalization” of pulmonary vasculature. Stage 2: Interstitial edema (18-25-mm Hg) Interstitial edema: peribronchial cuffing, Kerley lines (lymphatics filled with fluid) A,B, C lines. Stage 3: Alveolar edema: airspace disease: patchy consolidations developing into diffuse airspace disease: Bat wing edema, air bronchograms
  • Rx: 3 main goals: Initial O2 to keep O2 at 90% saturation
  • Next: (1) reduction of pulmonary venous return (preload reduction), (2) reduction of systemic vascular resistance (afterload reduction), and (3) inotropic support. Treat underlying causes (e.g. CHF)
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  • Lung atelectasis: incomplete expansion of pulmonary parenchyma. The term “collapsed lung” is typically reserved for when the entire lung is totally collapsed
  • 1) Resorptive (obstructive) atelectasis occurs as a result of complete obstruction of an airway (e.g. tumor, inhaled objects etc.)
  • 2) Passive (relaxation) atelectasis occurs when contact between the parietal and visceral pleura is disrupted (pleural effusion & pneumothorax)
  • 3) Compressive atelectasis occurs as a result of any thoracic space-occupying lesion compressing the lung and forcing air out of the alveoli
  • 4) Cicatrical atelectasis: occur as a result of scarring or fibrosis that reduces lung expansion as in granulomatous disease, necrotizing pneumonia, and radiation fibrosis
  • 5) Adhesive lung atelectasis occurs from surfactant deficiency and alveolar collapse
  • 6) Plate-like or discoid often developed after following general anesthesia
  • 7) Imaging features: lung collapse, migration of lung fissures, deviation of the mediastinum, rising of the diaphragm, hyperinflation of adjacent unaffected lung
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  • Mediastinum: pathology can be divided into those that result in a focal mass or those that result in diffuse disease involving the mediastinum. Additionally, air may track into the mediastinum in pneumomediastinum. Knowledge of mediastinal anatomy helps the Dx.
  • Anterior mediastinal masses: thyroid, thymus, teratoma/germ cell tumors, lymphoma, lymphadenopathy, ascending aortic aneurysms
  • Middle mediastinal masses: lymphadenopathy, vascular, bronchial lesions etc.
  • Posterior mediastinal masses: neurogenic tumours, aortic aneurysms, esophageal masses, spinal masses, aortic chain adenopathy
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  • Pulmonary emphysema: loss of normal elastic tissue/elastic recoil of the lung with the destruction of capillaries and alveolar septum/interstitium.
  • Destruction of lung parenchyma due to chronic inflammation. Protease-mediated destruction of elastin. Air trapping/airspace enlargement, hyperinflation, pulmonary hypertension, and other changes. Clinical: progressive dyspnea, irreversible. By the time the forced expiratory volume in 1 second (FEV1 ) has fallen to 50% the patient is breathless upon minimal exertion and adapts to lifestyles.
  • COPD is the third leading cause of global death. Affects 1.4% of adults in the US. M:F = 1 : 0.9. Pts 45 years and older
  • Causes: Smoking and a-1-Antitrypsin deficiency (divided into centrilobular (smoking) and panacinar.
  • Imaging; signs of hyperinflation, air trapping, bullae, pulmonary hypertension.
chest diagnostic imaging el paso tx.
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