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Authors are the souls of any journal, and deserve much respect. To publish a journal manuscripts are needed from authors. Authors have a great responsibility for producing facts of their work in terms of number and results truthfully and an individual honesty is expected from authors in this regards. Both ways its true "No authors-No manuscripts-No journals" and "No journals–No manuscripts–No authors". Reviewing a manuscript is also a very responsible and important task of any peer-reviewed journal and to be taken seriously. It needs knowledge on the subject, sincerity, honesty and determination. Although the process of reviewing a manuscript is a time consuming task butit is expected to give one's best remarks within the time frame of the journal.
Salient features of the JCDR: It is a biomedical, multidisciplinary (including all medical and dental specialities), e-journal, with wide scope and extensive author support. At the same time, a free text of manuscript is available in HTML and PDF format. There is fast growing authorship and readership with JCDR as this can be judged by the number of articles published in it i e; in Feb 2007 of its first issue, it contained 5 articles only, and now in its recent volume published in April 2011, it contained 67 manuscripts. This e-journal is fulfilling the commitments and objectives sincerely, (as stated by Editor-in-chief in his preface to first edition) i e; to encourage physicians through the internet, especially from the developing countries who witness a spectrum of disease and acquire a wealth of knowledge to publish their experiences to benefit the medical community in patients care. I also feel that many of us have work of substance, newer ideas, adequate clinical materials but poor in medical writing and hesitation to submit the work and need help. JCDR provides authors help in this regards.
Timely publication of journal: Publication of manuscripts and bringing out the issue in time is one of the positive aspects of JCDR and is possible with strong support team in terms of peer reviewers, proof reading, language check, computer operators, etc. This is one of the great reasons for authors to submit their work with JCDR. Another best part of JCDR is "Online first Publications" facilities available for the authors. This facility not only provides the prompt publications of the manuscripts but at the same time also early availability of the manuscripts for the readers.
Indexation and online availability: Indexation transforms the journal in some sense from its local ownership to the worldwide professional community and to the public.JCDR is indexed with Embase & EMbiology, Google Scholar, Index Copernicus, Chemical Abstracts Service, Journal seek Database, Indian Science Abstracts, to name few of them. Manuscriptspublished in JCDR are available on major search engines ie; google, yahoo, msn.
In the era of fast growing newer technologies, and in computer and internet friendly environment the manuscripts preparation, submission, review, revision, etc and all can be done and checked with a click from all corer of the world, at any time. Of course there is always a scope for improvement in every field and none is perfect. To progress, one needs to identify the areas of one's weakness and to strengthen them.
It is well said that "happy beginning is half done" and it fits perfectly with JCDR. It has grown considerably and I feel it has already grown up from its infancy to adolescence, achieving the status of standard online e-journal form Indian continent since its inception in Feb 2007. This had been made possible due to the efforts and the hard work put in it. The way the JCDR is improving with every new volume, with good quality original manuscripts, makes it a quality journal for readers. I must thank and congratulate Dr Hemant Jain, Editor-in-Chief JCDR and his team for their sincere efforts, dedication, and determination for making JCDR a fast growing journal.
Every one of us: authors, reviewers, editors, and publisher are responsible for enhancing the stature of the journal. I wish for a great success for JCDR."
Thanking you
With sincere regards
Dr. Rajendra Kumar Ghritlaharey, M.S., M. Ch., FAIS
Associate Professor,
Department of Paediatric Surgery, Gandhi Medical College & Associated
Kamla Nehru & Hamidia Hospitals Bhopal, Madhya Pradesh 462 001 (India)
E-mail: drrajendrak1@rediffmail.com
On May 11,2011
Dr. Shankar P.R.
"On looking back through my Gmail archives after being requested by the journal to write a short editorial about my experiences of publishing with the Journal of Clinical and Diagnostic Research (JCDR), I came across an e-mail from Dr. Hemant Jain, Editor, in March 2007, which introduced the new electronic journal. The main features of the journal which were outlined in the e-mail were extensive author support, cash rewards, the peer review process, and other salient features of the journal.
Over a span of over four years, we (I and my colleagues) have published around 25 articles in the journal. In this editorial, I plan to briefly discuss my experiences of publishing with JCDR and the strengths of the journal and to finally address the areas for improvement.
My experiences of publishing with JCDR: Overall, my experiences of publishing withJCDR have been positive. The best point about the journal is that it responds to queries from the author. This may seem to be simple and not too much to ask for, but unfortunately, many journals in the subcontinent and from many developing countries do not respond or they respond with a long delay to the queries from the authors 1. The reasons could be many, including lack of optimal secretarial and other support. Another problem with many journals is the slowness of the review process. Editorial processing and peer review can take anywhere between a year to two years with some journals. Also, some journals do not keep the contributors informed about the progress of the review process. Due to the long review process, the articles can lose their relevance and topicality. A major benefit with JCDR is the timeliness and promptness of its response. In Dr Jain's e-mail which was sent to me in 2007, before the introduction of the Pre-publishing system, he had stated that he had received my submission and that he would get back to me within seven days and he did!
Most of the manuscripts are published within 3 to 4 months of their submission if they are found to be suitable after the review process. JCDR is published bimonthly and the accepted articles were usually published in the next issue. Recently, due to the increased volume of the submissions, the review process has become slower and it ?? Section can take from 4 to 6 months for the articles to be reviewed. The journal has an extensive author support system and it has recently introduced a paid expedited review process. The journal also mentions the average time for processing the manuscript under different submission systems - regular submission and expedited review.
Strengths of the journal: The journal has an online first facility in which the accepted manuscripts may be published on the website before being included in a regular issue of the journal. This cuts down the time between their acceptance and the publication. The journal is indexed in many databases, though not in PubMed. The editorial board should now take steps to index the journal in PubMed. The journal has a system of notifying readers through e-mail when a new issue is released. Also, the articles are available in both the HTML and the PDF formats. I especially like the new and colorful page format of the journal. Also, the access statistics of the articles are available. The prepublication and the manuscript tracking system are also helpful for the authors.
Areas for improvement: In certain cases, I felt that the peer review process of the manuscripts was not up to international standards and that it should be strengthened. Also, the number of manuscripts in an issue is high and it may be difficult for readers to go through all of them. The journal can consider tightening of the peer review process and increasing the quality standards for the acceptance of the manuscripts. I faced occasional problems with the online manuscript submission (Pre-publishing) system, which have to be addressed.
Overall, the publishing process with JCDR has been smooth, quick and relatively hassle free and I can recommend other authors to consider the journal as an outlet for their work."
Dr. P. Ravi Shankar
KIST Medical College, P.O. Box 14142, Kathmandu, Nepal.
E-mail: ravi.dr.shankar@gmail.com
On April 2011 Anuradha
Dear team JCDR, I would like to thank you for the very professional and polite service provided by everyone at JCDR. While i have been in the field of writing and editing for sometime, this has been my first attempt in publishing a scientific paper.Thank you for hand-holding me through the process.
Dr. Anuradha
E-mail: anuradha2nittur@gmail.com
On Jan 2020
Reviews
Full Version
An Update on WHO Classification of Thoracic Tumours 2021- Newly Described Entities and Terminologies
Correspondence Address :
Dr. Gyanendra Singh,
Assistant Professor, Department of Pathology, All India Institute of Medical Sciences, Rajkot-360006, Gujarat, India.
E-mail: gyanendra002@gmail.com
The 5th edition of the World Health Organisation (WHO) “Classification of Thoracic Tumours” replaces the previous edition from 2015, which was released in 2021. The new edition includes specific diagnostic criteria for each entity and lays a stronger emphasis on diagnostic molecular pathology. Immunohistochemistry (IHC) was heavily promoted in 2015, as a way to improve classification precision. The book places more attention on molecular pathology developments for all tumour types in 2021. Classification based on microscopic biopsy samples of the characteristics of lung cancer is an alternative to resection-based categorisation. A grading system for invasive non mucinous adenocarcinomas has been developed, using the percentage of distinctive histological patterns found inside each tumour. Lung adenocarcinoma is also predisposed by Tumour Spread Through Air Spaces (STAS). A basaloid variety of Squamous Cell Carcinoma (SCC) and lymphoepithelial carcinoma was added to the SCC group. The ciliated muconodular papillary tumour and thoracic SMARCA4-deficient undifferentiated carcinoma are recent inclusions. Therefore, the following new terms and entities have been added to the WHO classification of 2021: (1) Thoracic SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4 (SMARCA4)-deficient undifferentiated tumour; (2) Bronchiolar adenoma/ciliated muconodular papillary tumour; (3) Primary pulmonary hyalinising clear cell carcinoma of lung; (4) Lypmphoepithelial carcinoma; (5) STAS.
Bronchiolar adenoma, Ciliated muconodular papillary tumour, Squamous cell carcinoma, World health organisation
The previous edition from 2015, was replaced by the WHO classification of thoracic tumours, 5th edition, which was released in 2021. The classification of many thoracic tumours hasn’t changed, but, the new edition places more emphasis on diagnostic molecular pathology and offers distinct, desirable diagnostic criteria for each entity (1). The fundamentals of classifying thoracic tumours remain the same: morphology comes first, then IHC, and finally molecular methods (2). In 2015, a lot of emphasis was placed on using IHC to enhance classification accuracy (3). The book places more attention on developments in molecular pathology for all tumour types in 2021. Along with classification based on resections, classification based on small biopsy samples of particular lung cancers is also possible. Based on the proportion of various histological patterns discovered inside each tumour, a grading system for invasive non mucinous adenocarcinomas has been created. STAS is a predictive marker for lung cancer (4).
Lymphoepithelial like carcinoma nomenclature changed to Lymphoepithelial carcinoma and has been introduced to the group of SCCs, and have been reclassified to include a basaloid variant. The latest additions are thoracic SMARCA4-deficient undifferentiated carcinoma and bronchiolar adenoma/ciliated muconodular papillary tumour. In the 2021 WHO classification, the following new terms and entities have been added: 1) Thoracic SMARCA4-deficient undifferentiated tumour; 2) Bronchiolar adenoma/ciliated muconodular papillary tumour; 3) Primary pulmonary hyalinising clear cell carcinoma of lung; 4) Lymphoepithelial carcinoma; 5) STAS [Table/Fig-1,2] (2).
The Newly Described Entity in the Recent Classification
The following new entities are added to the 2021 WHO classification of thoracic tumour:
Bronchial Adenoma/Ciliated Muconodular Pulmonary Tumour (BA/CMPT): The WHO classifies lung adenomas as of 2015, as sclerosing pneumocytoma, alveolar adenoma, papillary adenoma, mucinous cystadenoma, and mucous gland adenoma (3). Adenomas formed by the bronchiolar epithelium are poorly understood. Adenomas, that develop in tandem with the range of the lung airway epithelium include mucous gland adenomas and peripheral alveolar structures (alveolar adenoma). According to a recent theory, CMPT may stand for mucinous/papillary morphology prominent, bronchiolar difference across lesions with a wider range of morphologies, prompting the creation of a BA umbrella name to capture all lesions with this feature. CMPT refers to a collection of lesions with conventional morphology (4). One of the distinguishing features of BA/CMPT is the proliferation of non pleomorphic double layered bronchiolar type epithelium along the alveolar lung parenchyma, with luminal cells layer surrounded by basal cell (5). Luminal cells with several ciliated and/or mucin-filled cells can be categorised as proximal or distal airways (5). Older persons are primarily impacted by CMPT. This tumour has no connection to smoking history and can affect either sex (6). Mild atypia and a low proliferation index in CMPT support the benign nature of the tumour. Thyroid transcription factor 1 (TTF-1), Cytokeratin 7 (CK7) and carcinoembryonic antigen are thought to be CMPT specific markers, however, CK20 is negative (7).
The molecular changes in both, distal and proximal BAs (the latter corresponding to the conventional CMPT) are frequently identical and show mutation in proto-oncogene B-Raf (BRAF) V600E. Ki-ras2 Kirsten Rat Sarcoma viral oncogene homolog (KRAS), Harvey Rat Sarcoma virus (HRAS), Anaplastic Lymphoma Kinase (ALK), and Ak Strain Transforming (ATK) alterations, as well as, mutations in Epidermal Growth Factor Receptors (EGFR) have all been reported [5,8-11]. On imaging, BA/CMPT has solid or ground glass appearance with or without cavity formation. The lesions typically have a diameter between 0.5 and 1.5 cm. There is no preference for one sex over the other and patients range in age 6th to 7th decade. As of right now, no BA/CMPT patients, who had surgical resection have developed any new symptoms [5,12,13]. The most crucial differential diagnosis for BA/CMPT is adenocarcinoma. Ichaemia-modified Albumin (IMA) is one of the possible diagnoses for peripheral skin lesions and substantial mucinous features in proximal-type BA/CMPT [5,14,15]. The only difference between proximal-type
BA/CMPT and glandular/mixed papillomas, in terms of their physical characteristics, is that, the former are found in the alveolar lung parenchyma, whereas, the latter are found in the endobronchial space [10,11].
SMARCA4-Deficient undifferentiated thoracic tumour: The new edition now includes a highly aggressive tumour lacking SMARCA4 {also known as Brahma-related Gene-1 (BRG1)} and with an undifferentiated or rhabdoid phenotype. The condition was formerly referred to as “SMARCA4-deficient thoracic sarcoma [16-18]”. There is biallelic inactivation of SMARCA4 without any germline SMARCA4 mutation, and Tumor Protein 53 (TP53) mutation occurs in roughly 69% of cases. SMARCA4 (BRG1) is a member of chromatin remodelling complex, regulates transcription and promotes cell differentiation. The majority of cases are now being categorised as dedifferentiated/undifferentiated lung carcinoma due to recent molecular research showing that, it has a tight genomic relationship to smoking related Non Small Cell Lung Cancer (NSCLC) (19).
Due to the fact that, it possesses properties distinguishing it from typical NSCLC with SMARCA4 deficit, the WHO recognises SWI/SNF related, matrix associated, actin dependent regulator of chromatin, subfamily a, member 4- Undifferentiated Tumour (SMARCA4-UT) as a distinct entity from the latter. These hypercalcaemic variants of small cell ovarian carcinoma and malignant rhabdoid tumours share transcriptomic similarities with SMARCA4-deficient thoracic sarcomas but differ from them in terms of genomic instability, frequent TP53 mutations, higher tumour mutation burdens, and the absence of germline SMARCA4 alterations (18). Young to middle aged male with history of heavy and chronic smoking are usually affected. Clinical correlation is necessary because similar cancer can metastasize to the thorax, and SMARCA4-UT tumours in the lungs are extremely aggressive, with survival of only four to seven months [16-19]. Histopathology reveals, sheets of round to oval shaped discohesive epithelioid cells with monomorphic nuclei, minor nuclear pleomorphism and conspicuous nucleoli, which are the hallmarks of SMARCA4 defective tumour. The malignant rhabdoid tumour morphologic range in youngsters is similar overall. Except in rare mixed cases, when normal NSCLC is juxtaposed, clear epithelial architecture should be lacking. Rhabdoid cell differentiation may be present, but not required for diagnosis. These tumours are also frequently positive for Sex determining region Y-box 2 (Sox2), Cluster of Differentiation 34 (CD34), and Sal-like protein 4 (SALL4) On IHC, there is a reduction of expression of SMARCA4 (BRG1) by the tumour cells; occasionally, the expression is not totally lost but, there is a considerable decrease in BRG1 expression (16),(19).
Lymphoepithelioma-like Carcinoma (LELC) (lymphoepithelial carcinoma): In 1987, Begin LR et al., identified a lung cancer called LELC in a 40-year-old non smoking Southeast Asian woman (20). Serum antibodies against Epstein-Barr Virus (EBV) capsid antigens were found to be quite elevated, and the scientists noted a possible link between the two. Further research using in-situ hybridisation to detect EBV-encoded small nuclear Ribonucleic Acid (RNA) in tumour cell nuclei provided further evidence of the connection (21). While lymphoepithelial carcinoma was included in the large cell carcinoma subtype in the 2004 WHO classification, it is now classed as “other and unclassified carcinomas” in the 2015 WHO classification (22) because, CK and Epithelial Membrane Antigen (EMA) are typically expressed by the tumour cells of lymphoepithelial carcinoma. Furthermore, CK 5/6, p63, and p409 are also positive, indicating squamous cell lineage (23),(24). As a result, LELC, which was listed under “other and unclassified carcinomas” in the fourth edition, has been renamed lymphoepithelial carcinoma and is now regarded as a subtype of SCC.
STAS (Spread Through Air Space): New term added to the 2021 classification, in which tumour cells lie in air gaps beyond the main tumour’s border. It can be seen in approximately 15%-50% of NSCL can also be found in small cell carcinoma. Micropapillary formations, solid nests of malignant cells, and single discohesive cells are examples of patterns. In lung adenocarcinomas, STAS is now included in the WHO classification of thoracic tumour 2021. If STAS is discovered in sublobar resection, it may indicate that, lobectomy is needed later. If STAS is detected in limited resections, it may have a higher recurrence risk than lobectomy (3),(25),(26).
Primary pulmonary Hyalinising Clear Cell Carcinoma (HCCC) of lung: The 2021 WHO classification of lung malignancies now includes this new category (27). Primary pulmonary salivary gland-type malignancies account for about 1% of all thoracic tumours. The diagnostic challenge can be significant, when it occurs in unusual places, like the bronchus or nasopharynx. Hyalinising clear cell carcinoma frequently affects small salivary glands of the palate and oral base (28). The tumour cells display immunoreactivity for CK7 and also for p40 and p63 (29). The tumour comprises of abnormally small to medium sized epithelioid cells with round to oval nuclei, barely perceptible nucleoli, eosinophilic to clear cytoplasm, and very low mitotic figures. Correct diagnosis is aided by knowledge of the important immunohistochemical and molecular testing along with the fundamental morphologic aspects of pulmonary HCCC, as it is challenging to diagnose primary pulmonary HCCC from a small sample (29).
Nomenclature in Small Biopsy
If the distinction between adenocarcinoma and SCC on the basis of morphology is not clear and there is a requirement of IHC, then the term Non Small Cell Carcinoma (NSCC)- favouring adenocarcinoma or SCC should be used. Since, no invasion is seen in the lepidic growth pattern and this pattern can be seen in the above mentioned entity, it should be reported as adenocarcinoma with lepidic pattern and distinction between minimally invasive adenocarcinoma, adenocarcinoma in-situ, and invasive adenocarcinoma required a resected specimen should be noted in the comment section. Similar to small biopsy or cytology specimens, large cell carcinoma should not be diagnosed and should only be utilised in resection specimens, if the tumour has been thoroughly evaluated to rule out a differentiated component (1). Use the term small cell carcinoma, if it has the characteristic features; if the features are similar to those of a large cell neuroendocrine carcinoma, it should be classified as a NSCC with neuroendocrine morphology. Similarly, the term NSSC-NOS specified is indicated when both an adenocarcinoma and SCC component present, or it can’t be subtyped further (1),(2).
Small Biopsies Tissue Preservation
Efforts must be made to maximum preservation of the tissue which allows the examination of different biomarkers and they may be eligible for immunotherapy or targeted therapy. IHC should only be performed if the morphology requires it, and double IHC, such as TTF-1 and p40, should be used whenever possible, because both are nuclear stains, so different chromogen used to differentiate them. The p40 protein could be combined with Napsin (1).
Molecular Updates of Thoracic Tumours
Adenocarcinoma molecular abnormalities were included in the “Somatic genetics” part of the 2015 WHO classification (3). As of the 2021 WHO classification, molecular abnormalities are classified under “Aetiology”, “Pathogenesis,” and “Diagnostic molecular pathology.” Adenocarcinoma is characterised by numerous molecular alterations that have been linked to its development, progression, and most importantly treatment. (Table/Fig 3) discusses the changes that have been made to the lung tumour classification over the years from 2015 to 2022 (30),(31),(32),(33),(34),(35),(36),(37),(38),(39),(40). These changes are briefly explained below.
An imbalance between oncogenes and tumour suppressor genes causes lung carcinogenesis, which manifests as a tumour composed of malignant cells, that have taken on the phenotypic “hallmarks of cancer” (41). Until to a few years ago, advanced NSCLC had a grim prognosis. Nevertheless, the discovery of oncogene addiction sparked the development of targeted therapies against driver mutations, which produced outstanding response rates and survival outcomes (42). Mutations in the EGFR gene, that increase susceptibility to the disease occur in 30-40% of Asian patients and 10-12% of non Asian patients. They’re linked to being a non smoker, having adenocarcinoma, and being of the female sex (30),(31). Since, the identification of the driving oncogene for the EGFR and the tyrosine kinase inhibitors that target it, individualised genomic-driven management decisions have been accepted as the gold standard of care in NSCLC (43). The most frequent driver modifications in NSCLC are KRAS mutations, which are virtually exclusively found in adenocarcinomas (44). They impact 25% of patients and are linked to smoking and a reduced life expectancy (45). A 5% of NSCLC patients had ALK gene rearrangements, primarily in adenocarcinoma and non/light smokers (32). Patients with ALK rearrangements are more likely to be male and younger than EGFR-mutant individuals (46). Some changes, such as TP53, NRAS, and Mitogen-activated Protein Kinase 11 (MAP2K11), are more prevalent among smokers (47),(48),(49). In the untreated context, oncogenic drivers are often mutually exclusive within a specific tumour. It is hypothesised that, when these drivers are mutually exclusive, they constitute early events in tumour formation; these modifications are detected in early lesions, including atypical adenomatous hyperplasia and Adenocarcinoma In-situ (AIS), supporting this hypothesis (50) The ALK gene on chromosome 2 encodes ALK, a protein that belongs to the family of insulin-receptor tyrosine kinases. A 3%-5% of NSCLC patients experience ALK rearrangements, which are more prevalent in younger individuals, those with a light smoking history, adenocarcinoma histology, and tumours with wild-type EGFR and KRAS (32),(51). Lung cancer treatment focuses on ROS1 only recently. ROS1 fusion has been identified as a driving mutation in NSCLC cell lines and primary tumours (52). A small percentage, 1%-2%, of NSCLCs have ROS1 rearrangement. There is a lot of similarity between the ROS1-kinase domain and the ALK-kinase domain. Patients who test positive for ROS1 are similar to those, who test positive for ALK in several respects, including their shared adenocarcinoma histology, histomorphology, younger age, and high incidence of non smokers (33).
Emerging molecular targets: The RET is capable of oncogenic activation via mutation or rearrangement. Rearranged RET occurs in 1%-2% of unselected instances of NSCLC. These mutations are frequently observed in non smokers’ adenocarcinomas (34). When it comes to NSCLC, Kinesin Family Member 5B (KIF5B) is RET’s upstream fusion partner of choice (35). In 3% of non squamous NSCLC, MET exon 14 mutations are another emerging target genetic change. These mutations are more likely to be found in non smokers, and clinical trials are necessary to evaluate how well MET inhibitors work, because only a small number of case reports and restricted series have shown positive results (35),(37).
The 5th WHO classification of thoracic tumour includes specific diagnostic criteria for each entity and lays a stronger emphasis on diagnostic molecular pathology. Classification based on microscopic biopsy samples of the characteristics of thoracic cancer is an alternative to resection-based categorisation. A grading system for invasive non mucinous adenocarcinomas has been proposed and lung adenocarcinoma is also predisposed by STAS. A basaloid variety of SCC was added, and lymphoepithelial carcinoma was added to the SCC group. The ciliated muconodular papillary tumour, thoracic SMARCA4-deficient undifferentiated carcinoma and primary pulmonary HCCC are the recent inclusions. Beside this, a lot of emphasis has been placed on the molecular basis and precise nomenclature used for small biopsy samples, because these factors determine which clinician will be in charge of the patient’s future treatment.
DOI: 10.7860/JCDR/2023/62583.18076
Date of Submission: Jan 02, 2023
Date of Peer Review: Feb 17, 2023
Date of Acceptance: Apr 13, 2023
Date of Publishing: Jun 01, 2023
AUTHOR DECLARATION:
• Financial or Other Competing Interests: None
• Was informed consent obtained from the subjects involved in the study? NA
• For any images presented appropriate consent has been obtained from the subjects. NA
PLAGIARISM CHECKING METHODS:
• Plagiarism X-checker: Jan 03, 2023
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• iThenticate Software: Apr 12, 2023 (20%)
ETYMOLOGY: Author Origin
EMENDATIONS: 9
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