Continuing Education Activity
Interstitial lung disease (diffused parenchymal diseases) are a heterogeneous group of disorders characterized by fibrosis (scarring) of the lungs. These are classified on the basis of histopathological, radiologic and clinical parameters. This activity describes the evaluation and management of interstitial lung disease and reviews the role of the interprofessional team in improving care for patients with this condition.
Objectives:
- Outline the epidemiology of interstitial lung disease.
- Describe the inflammation and fibrosis in the pathophysiology of interstitial lung disease.
- Review the physical exam findings associated with interstitial lung disease.
- Summarize the importance of improving care coordination among the interprofessional team to enhance delivery of care for patients affected by interstitial lung disease.
Introduction
Interstitial lung disease (ILD), sometimes called diffused parenchymal diseases, describes a heterogeneous collection of distinctive lung disorders classified on the grounds of shared clinical, radiographic, physiologic or pathologic factors. What makes it difficult to understand this group of diseases is the confusing terminology. The pathogenetic sequence in actuality involves a series of inflammation and fibrosis that extends beyond disrupting the interstitial bed (as the name implies) to changing the parenchyma (alveoli, alveolar ducts, and bronchioles). The list of causes of infiltrative diseases is never-ending. Many are extremely rare. The pattern of disease spread varies among the groups; for that reason establishing the correct diagnosis is vital.
Etiology
The classification system used to describe interstitial lung disease categorizes conditions based on clinical, histopathological or radiologic parameters.[1] Clinical classification groups ILD by its causes to help differentiate exogenous or endogenous factors.[2] Interstitial lung disease diseases without identifiable causes get grouped under idiopathic/primary which uses the histopathological and radiological approach as its infrastructure.
Known causes.
- Environmental and occupational exposure
Long-term exposure to occupational or environmental agents can have a toxic effect on the lungs. Common agents are mineral dust, organic dust, and toxic gases.[3] Many different types of mineral dust have correlations, but the ones frequently cited with the disease are silica, asbestos, coal mine dust, beryllium, and hard metal. Organic dust includes mold spores and aerosolized bird droppings. Inhaled toxic gases (methane, cyanide) affect the airways either by direct injury or through reactive oxygen molecules. Epidemiologically, the magnitude of exposure-related injuries is hard to measure. It probably occurs even more commonly than estimated. That is why it is invaluable to thoroughly review a patient’s entire employment history and home to look for any evidence of potential agent-disease relationships.[3]
- Auto-Immune diseases
Connective tissue diseases and vasculitides affect all areas of the lungs (bronchioles, parenchyma, alveoles) which is why interstitial lung disease is a common feature of rheumatology diseases.[4][5]
- Drug-induced ILD: More than 350 drugs have been identified to cause pulmonary complications whether through reactive metabolites or as a component of a general response.[6][7] A diagnosis is possible with appropriate clinical findings and in most cases should be established after excluding other causes. Radiological findings may be unpredictable, but because drug reactions usually affect the parenchyma, an interstitial pattern is what is most observed. The histopathology is also variable. The common patterns seen are eosinophilic pneumonia or hypersensitivity pneumonitis.
- Idiopathic disease
This variant is the most common type. This main category is called idiopathic interstitial pneumonia which is a combination of inflammation and fibrosis as opposed to infectious pneumonia.[8] There are seven distinct types, differentiated by histopathological features with clear clinical distinctions. Most cases are sporadic, but genetics can play a role.
Epidemiology
Interstitial lung disease incidence rates in the United States have been difficult to determine. Many speculate that the prevalence is far more substantial than formerly described. The reason that the reported prevalence may be so low is because of failure to recognize the disease. ILD is a diagnosis of exclusion that requires extensive investigation.[9] Now, newer guidelines/classification have made it easier. The estimated incidence is 30 per 100000 per year. The overall prevalence is 80.9 per 100000 per year in males and 67.2 per 100000 per year in females.[10] These statistics derived from one of the most important epidemiologic studies, undertaken in Bernalillo County in New Mexico.
Pathophysiology
Many of the subsets of the disease are of unknown etiology. Regardless, they all ultimately share the same manner of development. The morphological changes seen histologically result from a sequence of inflammation within the parenchyma, which is the portion of the lung involved in gas exchange (the alveoli, the alveolar ducts, and the bronchioles). This compartment is the habitat to various proteins and pro-fibrotic elements. These proteins, after repeated cycles of activation, give rise to accumulation of connective tissue.[11] The trigger can be a known agent that deposited within the lung tissues. In some cases, the fibrosis arises spontaneously.
History and Physical
The most frequently reported symptom is a gradual onset of dyspnea, but sometimes it may simply be a cough. For example, in patients with bronchiolitis obliterans organizing pneumonia, an unrelenting cough is usually the presenting symptom.[12] Pleuritic chest pain is uncommon overall but does occur in some subtypes such as sarcoidosis. Hemoptysis may present from diffuse alveolar hemorrhages. On the other hand, a patient can be completely asymptomatic but have abnormal imaging.
The history should include details regarding potential environmental or occupational exposures, current and past medications lists, history of any radiation exposures, fumes, dust, toxic inhalation. Family history is essential as genetics can play a role. Symptoms of rheumatologic diseases should be considered, but always keep in mind that dyspnea may be the only presenting symptom for rheumatological-associated interstitial lung disease.
On physical exam, bibasilar crackles are characteristics but not necessarily a consistent finding. Patients with advanced disease may have digital clubbing or physical signs of pulmonary hypertension such as increased intensity of P2 of the second heart sound.
Evaluation
Determining the cause and severity of interstitial lung disease can be difficult. A clinician may be able to reach a diagnosis with a detailed history and supporting laboratory but might need to involve an interprofessional team for a higher diagnostic yield.[13] Interstitial lung disease deals with a diversified collection of disorders with different management approach and prognosis, which is why arriving at a final diagnosis, is paramount. It starts with a detailed patient history and physical exam coupled with laboratory testing, imaging, physiologic testing and possibly a biopsy.
Initial routine laboratory evaluation consists of complete blood count to check for evidence of hemolytic anemia for example, as can be seen in SLE, or eosinophilia, as can be seen in drug-induced. Laboratory testing should also include hepatic function, renal function, and serologic studies. In some cases may, infectious studies may be appropriate (HIV, hepatitis).
Imaging workup starts with a routine chest radiograph. The most common radiographic feature observed is a reticular pattern, however nodular or mixed patterns can be seen.[14] Occasionally some of these patterns can help you narrow down the possibilities. The presence of mediastinal lymphadenopathy on an XRay might signify the presence of lymphoma or sarcoidosis. High-resolution computed tomography (HRCT) can offer a better characterization of the disease and even aid in diagnosis in case of a negative CXR; the HRCT needs to be done in a supine position.
In some cases, it may show a classic radiological pattern of some disease like usual interstitial pneumonia (UIP). The classic radiological pattern of UIP on HRCT is subpleural and basilar predominant changes, reticular patterns, honeycomb changes with or without traction bronchiectasis. If the diagnosis remains unclear after combining history, laboratory results and radiological findings, invasive workup may be helpful. Bronchoalveolar lavage (BAL) gives nonspecific results, meaning there are no findings in a BAL that is proven pathognomonic for a particular type of ILD. BAL, however, can be helpful when it comes to narrowing down the options. For example, in patients suspected of hypersensitivity pneumonitis, BAL will show marked lymphocytosis. The decision to pursue a lung biopsy should be individualized. Not all cases require a lung biopsy. It is most helpful in diagnosing sarcoidosis and idiopathic interstitial pneumonia.
Complete lung functions and oxymetry are necessary for all patients with ILD for prognostication and monitoring of the disease.
Treatment / Management
For those interstitial lung disorders with known causes, avoidance of irritant is essential. General supportive measures will include smoking cessation, pulmonary rehabilitation which can help improve functionality, and good pulmonary hygiene. Supplemental oxygen is necessary for those who demonstrate hypoxemia (SaO2 less than 88). With progressive disease despite the elimination of offending agent, corticosteroids are desirable. Patients with bronchiolitis obliterans organizing pneumonia (BOOP) or hypersensitivity pneumonitis (HP) have rapid, dramatic improvement with corticosteroids. For cases that do not respond to corticosteroids, immunosuppressant therapy is an investigational therapy.
The mainstay therapy for treatment of idiopathic interstitial pneumonia is corticosteroids and immunosuppressive therapies to intercept the inflammatory process within the lungs.[15] Right now, nintedanib and pirfenidone are immunosuppressant drugs that have been approved but only in the treatment of idiopathic pulmonary fibrosis.[16] Some studies have provided indirect evidence that early therapy within the course of the disease might correlate with therapeutic responsiveness because the lung architecture has not suffered significant derangement. Once fibrosis initiates, there has not been any treatment to reverse that process, but nintedanib can slow disease progression.[13] Transplant is the sole treatment modality that can reinstate physiological function in patients.
Differential Diagnosis
The differential includes pulmonary edema, ARDS, bacterial, fungal or viral pneumonia.
Prognosis
Prognosis varies amongst the subgroups of interstitial lung diseases.[17] Typical treatment responsive sub-classes are the following: acute eosinophilic pneumonia, cellular interstitial pneumonia, BOOP, lymphocytic interstitial pneumonitis, pulmonary capillaritis, granulomatous interstitial pneumonitis and finally, alveolar proteinosis. But in any case, prognosis still correlates with the extent of the disease on presentation. The subclasses that are notoriously resistant to therapy are advanced conditions such as idiopathic pulmonary fibrosis.
Complications
Complications include worsening hypoxia, cardiovascular diseases, pulmonary HTN, infections.
Enhancing Healthcare Team Outcomes
The diagnosis and management of interstitial lung disease are complex and requires an interprofessional team that includes the primary physician, nurse practitioner, pulmonologist, thoracic surgeon, pathologist, and radiologist. Once the diagnosis is made, asymptomatic patients may be placed under observation, but all symptomatic patients need treatment. The condition is known to progress to fibrosis and end-stage lung disease, hence long term monitoring is essential. Educating patients about the importance of smoking cessation is critical. The quality of life of most patients is poor, marked by significant respiratory distress with minimal physical activity.[16][18]
Interstitial lung disease is best addressed by an interprofessional team that includes the patient's primary care doctor, a pulmonologist, nursing staff, and pharmacists, as well as pulmonary function techs and respiratory therapists, to provide optimal patient diagnosis and care. [Level V]
Review Questions
References
- 1.
- Rivera-Ortega P, Molina-Molina M. Interstitial Lung Diseases in Developing Countries. Ann Glob Health. 2019 Jan 22;85(1) [PMC free article: PMC7052338] [PubMed: 30741505]
- 2.
- Mikolasch TA, Garthwaite HS, Porter JC. Update in diagnosis and management of interstitial lung disease . Clin Med (Lond). 2017 Apr;17(2):146-153. [PMC free article: PMC6297625] [PubMed: 28365626]
- 3.
- Luckhardt TR, Müller-Quernheim J, Thannickal VJ. Update in diffuse parenchymal lung disease 2011. Am J Respir Crit Care Med. 2012 Jul 01;186(1):24-9. [PMC free article: PMC5448648] [PubMed: 22753686]
- 4.
- Mira-Avendano I, Abril A, Burger CD, Dellaripa PF, Fischer A, Gotway MB, Lee AS, Lee JS, Matteson EL, Yi ES, Ryu JH. Interstitial Lung Disease and Other Pulmonary Manifestations in Connective Tissue Diseases. Mayo Clin Proc. 2019 Feb;94(2):309-325. [PubMed: 30558827]
- 5.
- Kalchiem-Dekel O, Galvin JR, Burke AP, Atamas SP, Todd NW. Interstitial Lung Disease and Pulmonary Fibrosis: A Practical Approach for General Medicine Physicians with Focus on the Medical History. J Clin Med. 2018 Nov 24;7(12) [PMC free article: PMC6306719] [PubMed: 30477216]
- 6.
- Schwaiblmair M, Behr W, Haeckel T, Märkl B, Foerg W, Berghaus T. Drug induced interstitial lung disease. Open Respir Med J. 2012;6:63-74. [PMC free article: PMC3415629] [PubMed: 22896776]
- 7.
- Skeoch S, Weatherley N, Swift AJ, Oldroyd A, Johns C, Hayton C, Giollo A, Wild JM, Waterton JC, Buch M, Linton K, Bruce IN, Leonard C, Bianchi S, Chaudhuri N. Drug-Induced Interstitial Lung Disease: A Systematic Review. J Clin Med. 2018 Oct 15;7(10) [PMC free article: PMC6209877] [PubMed: 30326612]
- 8.
- Capron F. [New classification of interstitial lung disease]. Rev Pneumol Clin. 2005 Jun;61(3):133-40. [PubMed: 16142185]
- 9.
- Raghu G, Nyberg F, Morgan G. The epidemiology of interstitial lung disease and its association with lung cancer. Br J Cancer. 2004 Aug;91 Suppl 2(Suppl 2):S3-10. [PMC free article: PMC2750810] [PubMed: 15340372]
- 10.
- Coultas DB, Zumwalt RE, Black WC, Sobonya RE. The epidemiology of interstitial lung diseases. Am J Respir Crit Care Med. 1994 Oct;150(4):967-72. [PubMed: 7921471]
- 11.
- Suki B, Stamenović D, Hubmayr R. Lung parenchymal mechanics. Compr Physiol. 2011 Jul;1(3):1317-51. [PMC free article: PMC3929318] [PubMed: 23733644]
- 12.
- Ryu JH, Olson EJ, Midthun DE, Swensen SJ. Diagnostic approach to the patient with diffuse lung disease. Mayo Clin Proc. 2002 Nov;77(11):1221-7; quiz 1227. [PubMed: 12440558]
- 13.
- Jakubczyc A, Neurohr C. [Diagnosis and Treatment of Interstitial Lung Diseases]. Dtsch Med Wochenschr. 2018 Dec;143(24):1774-1777. [PubMed: 30508858]
- 14.
- Raghu G, Brown KK. Interstitial lung disease: clinical evaluation and keys to an accurate diagnosis. Clin Chest Med. 2004 Sep;25(3):409-19, v. [PubMed: 15331183]
- 15.
- Kondoh Y, Taniguchi H, Yokoi T, Nishiyama O, Ohishi T, Kato T, Suzuki K, Suzuki R. Cyclophosphamide and low-dose prednisolone in idiopathic pulmonary fibrosis and fibrosing nonspecific interstitial pneumonia. Eur Respir J. 2005 Mar;25(3):528-33. [PubMed: 15738299]
- 16.
- Cottin V, Wollin L, Fischer A, Quaresma M, Stowasser S, Harari S. Fibrosing interstitial lung diseases: knowns and unknowns. Eur Respir Rev. 2019 Mar 31;28(151) [PMC free article: PMC9489101] [PubMed: 30814139]
- 17.
- Kolb M, Vašáková M. The natural history of progressive fibrosing interstitial lung diseases. Respir Res. 2019 Mar 14;20(1):57. [PMC free article: PMC6417262] [PubMed: 30871560]
- 18.
- Sciriha A, Lungaro-Mifsud S, Fsadni P, Scerri J, Montefort S. Pulmonary Rehabilitation in patients with Interstitial Lung Disease: The effects of a 12-week programme. Respir Med. 2019 Jan;146:49-56. [PubMed: 30665518]
Disclosure: Marsha Antoine declares no relevant financial relationships with ineligible companies.
Disclosure: Mouna Mlika declares no relevant financial relationships with ineligible companies.
Publication Details
Author Information and Affiliations
Authors
Marsha H. Antoine; Mouna Mlika1.Affiliations
Publication History
Last Update: July 31, 2023.
Copyright
This book is distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) ( http://creativecommons.org/licenses/by-nc-nd/4.0/ ), which permits others to distribute the work, provided that the article is not altered or used commercially. You are not required to obtain permission to distribute this article, provided that you credit the author and journal.
Publisher
StatPearls Publishing, Treasure Island (FL)
NLM Citation
Antoine MH, Mlika M. Interstitial Lung Disease. [Updated 2023 Jul 31]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024 Jan-.