AUCTORES
Review Article
*Corresponding Author: Lizaveta I. Bon, Candidate of biological science, assistant professor of pathophysiology department named D.A. Maslakov, Grodno State Medical University, Belarus.
Citation: Lizaveta I. Bon and. Bon E.I., B. Th.Vihanga (2022). Immunohistochemical Markers of Glioblastomas. J. Clinical Research Notes. 3(4); DOI: 10.31579/2690-8816/061
Copyright: © 2022 Lizaveta I. Bon1, this is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Received: 08 March 2022 | Accepted: 16 May 2022 | Published: 01 June 2022
Keywords: glioblastoma; glioblastoma markers; glioblastoma multiform
Glioblastoma is a lethal tumor that can develop in the central nervous system. The most serious type of brain cancer is known as glioblastoma multiforme (GBM). This work aims to emphasize the usage of different glioblastoma markers during the diagnosis process and the treatment of the GBM. And also this may focus on the changes that are often associated with GBM pathogenesis and understanding the significance of glioblastoma markers, as well as their involvement in numerous critical cellular signaling pathways, can help direct potential research toward novel GBM treatments.
Glioblastoma is a sort of malignant growth that can develop in the central nervous system that is classified as a grade IV astrocytoma, which is a rapidly-growing and aggressive cancer. Glioblastoma starts from astrocytes, which are cells that feed on nerve cells. Glioblastoma tumors produce their blood, which helps in their growth. They can easily penetrate normal brain tissue. Glioblastoma, also known as glioblastoma multiform (GBM), is the most serious form of brain cancer [1].
GBM is a fatal disease with a sad prognosis, short-term median patient survival, and adverse treatment outcomes. It has a complex etiology that includes genetic mutations and mutations in several important cell pathways involved in cell proliferation, survival, migration, and angiogenesis. As a result, better knowledge of GBM etiology is essential for the development of effective treatment [2].
CD133, CD44, CD15, CD70 (CD27 L), S100A4, ALDH1A3, Nanog, OCT-4, SOX-2, and Nestin are some of the potential symptoms an approach for detecting glioma stem cells (GSCs). GSC indicators play an essential purpose in malignancy. Micro-RNAs (miRNAs) are very high sensitivity and specificity indicators that might be used to both diagnose and predict cancer [3].
RTK Receptor Tyrosine Kinase (RTK) Expression in GBM
GBM tumors are subdivided into several cell subtypes with distinct genetic signals and show abnormal activation of many signaling pathways, especially those linked to receptor tyrosine kinases (RTKs) that regulate glioma cell growth, survival, migration, invasion, and angiogenesis. G-protein-coupled receptors and calcium channels are the two non-canonical types of RTK signaling detected in GBM [4].
More than 80% of key GBMs include RTK mutations, which include EGFR, PDGFRA, basic fibroblast growth factor receptor 1 (FGFR-1), and insulin-like growth factor receptor (IGFR-). 1) [5]. The RAS / RAF / MAPK pathway, which leads to cell proliferation, differentiation, and migration, as well as the PI3K / AKT / mTOR method, which is highly effective in promoting cell proliferation and survival through cell cycle progression and prevention of apoptosis, are two main symptoms RTK techniques utilized in gliomas [5]. The PTEN implant component, which suppresses this process, controls PI3K activity [6]. PTEN deficiency may result in significant overproduction, which may be a major source of resistance to EGFR treatment [7]. The most common genetic mutations include EGFR mutations, reorganization, further consolidation, and environmental enhancement [8]. In clinical trials of people with GBM, EGFR antagonists weren't efficient [9-11]. Lack of response may be attributed to very small drug intrusion into the entire blood-brain barrier, which was found to change resistance to target RTKs, and intratumoral heterogeneity in GBM tumors [12, 13].
When it comes to additional RTK mutations, high levels of PDGFRA have been found, and about half of these issues have also been able to increase EGFR and/or mutation [14]. Despite the relatively rare occurrence in GBM, mutations such as increased mesenchymal-epithelial transition factor (c-Met) and FGFR mutations were found in 2% of GBMs tested [15, 16].
All of these functional genetic mutations can occur simultaneously in a few RTKs within a single GBM, as well as changes in the lower parts of the growth pathway for growth factor acquisition. The most powerful oncogenic mechanism for GBM is PI3K / AKT / mTOR, which can be activated by converting the catalytic domain (PIK3CA) or PI3K (PIK3R1) [17]. It was found that more than 10% of GBMs have PIK3R1 mutations, which have not been reported as commonly expressed in any other hate [18]. AKT categorization was found to be a sign for detecting a subgroup of GBM patients who reacted to carmustine (BCNU)/CCNU and PI3K/AKT/mTOR pathway antagonists [19]. Recent studies have found that the gene for tumor suppressor NF1, which produces the neurofibromin (RAS negative regulator), is altered or removed from 15% to 18% of the primary GBM (mesenchymal subclass) [20].
The tyrosine kinase receptors
RTKs are a kind of membrane protein that works as a sensor for external signaling molecules such as growth factors, cytokines, hormones, neurotrophic factors, etc. RTKs respond to ligand activation by signaling via two key downstream pathways: Ras/MAPK/ERK and Ras/PI3K/AKT [21]. Cell division, survivability, specialization, and angiogenesis are all influenced by these mechanisms. EGFR, PDGFR, FGFR, IGF-1R, VEGFR, and hepatocyte growth factor receptor (HGFR/c-MET) are the 6 main tyrosine kinase receptors.
Tyrosine kinase receptors have the same structure as ligand-binding domains, hydrophobic transmembrane domains, and intracellular tyrosine kinase domains. Ligand contact stimulates them, causing receptor dimerization and tyrosine kinase domain autophosphorylation. This causes two important downstream signaling pathways to be activated: Ras/MAPK/ERK and Ras/PI3K/AKT [22-28]. RTKs and their ligands are prospective therapeutic targets for the treatment of GBM due to their capability to stimulate downstream signaling pathways involved in proliferation, invasiveness, survival, and angiogenesis.
RTK signal transduction cascade biomarkers
PDGFR
PDGFR signaling is crucial in normal tissue development, and its imbalance causes oncogenesis. GBMs frequently have a PDGF autocrine loop that is not present in normal brain tissues [29]. PDGFRα (platelet-derived growth factor receptor alpha) is the second most frequently increased RTK in GBM after EGFR. GBM has been demonstrated to express all PDGF ligands (PDGF-A, PDGF-B, PDGF-C, and PDGF-D), as well as the two cell surface receptors PDGFR-α and PDGFR-β [30].
VEGFR
The angiogenesis protein VEGF has been found to promote capillary permeability. It has also been shown that malignant transformation increases VEGF Expression level [31]. Hypoxia-inducible transcription factors (HIF1 and HIF1) translocate to the nucleus and activate the VEGF gene under hypoxic conditions. When VEGF is activated, angiogenesis increases to compensate for hypoxia [32]. GBM tumors are frequently hypoxic, with elevated VEGF production, which contributes to the irregular vasculature associated with GBM. GBM tissues have been found to exhibit extremely high levels of VEGF expression, which has been linked to an increase in the expression of the VGFR receptor VEGFR2 [33, 34].
EGFR
EGFR is a member of a family of four tyrosine kinases that includes ErbB1 (EGFR, HER1), ErbB2 (Her-2), ErbB3 (Her-3), and ErbB4 (HER-4) (Her-4). EGFRs promotes proliferation and have been linked to glioblastoma etiology and treatment resistance [35]. ErbB2/HER-2 mutations were also found in 8–41% of GBM cases [36]. In GBM, a mutant EGFR variant III (EGFRvIII) is widely produced and is constitutively induced in a ligand-independent manner, resulting in cell proliferation and survival. Despite the EGFRvIII's growth-promoting capabilities, its expression has been associated with increased overall survival in patients [37, 38] this can be understood by the fact that EGFRvIII is a neoantigen, which may induce an immunological response.
FGFR
There are 22 FGFs (fibroblast growth factors) and four distinct FGF receptors in humans (FGFR1, 2, 3, and 4). FGF2 has been demonstrated to increase the growth of cultured GBM cell lines, whereas FGFR signaling inhibition via RNA interference or antibody blocking reduced GBM cell proliferation. . FGFR1 has also been observed to be expressed at higher levels in brain tumors when compared to neighboring normal brain tissue, implying that this receptor plays a role in carcinogenesis. FGF5 has even been discovered to be upregulated in GBM, and its expression has been linked to increased proliferation.
IGF-1R
IGF-1R was shown to be highly expressed in GBM, and this upregulation was associated with decreased survival and lower responsiveness to temozolomide, implying a role for IGF-1R signaling in GBM pathogenesis.
HGFR/c-MET
The activating ligand for HGFR/c-MET that has been demonstrated to be released by brain tumor cells is scattered factor (SF)/hepatocyte growth factor (HGF) In cancer cells and vascular endothelial cells, HGFR/c-MET expression and activation result in cellular proliferation and invasion. The relationship of HGFR/c-MET with proliferation and survival suggests that it could be used as a target for GBM therapy.
IDH Mutations
IDH1 and IDH2 gene codes two key metabolic enzymes: isocitrate dehydrogenase 1 & 2. These proteins do the oxidative carboxylation of isocitrate to alpha-ketoglutarate in the Krebs cycle, culminating in the production of NADPH [39, 40] The development of the oncometabolite 2-hydroxyglutarate is aided by mutations in these IDH genes [41, 42]. Gliomas with IDH mutations are a separate pathological disease that emerges virtually exclusively in gliomas with EGFR amplification and chromosome 10 loss and develops in the context of TP53 mutation or 1p/19q chromosomal deletion. Furthermore, IDH-mutant tumors have been associated with significant epigenetic abnormalities, such as DNA methylation disorders, which exhibit a dramatic pattern of hypermethylation of certain DNA promoter regions known as the glioma-CpG island methylator phenotype (G-CIMP). The IDH route is not used by wild-type IDH gliomas, including pilocytic astrocytomas and primary GBMs (G-CIMP).
TP53/MDM2/p14ARF Pathway
The tumor suppressor gene TP53 encodes a p53 protein that controls target genes associated with cell arrest in the G1 and/or G2 phases, cell death and differentiation, DNA repair, and neovascularization. [43-45]. TP53 can be inactivated indirectly by mutation or deletion, or directly through damage to collaborating genes [46] The oncoprotein MDM2 suppresses p53 function by ubiquitinating it and causing it to be degraded by the proteasome. In addition, the p1 protein functionally antagonizes MDM2 and, as a result, inhibits p53 silencing [47].
MGMT Methylation
MGMT encoding promoter O6 -methyl guanine-DNA methyltransferase is a DNA repair enzyme that protects cells from alkylating chemicals by preventing G: CA: T gene alterations. [48]. MGMT promoter methylation disorders are related to transcriptional suppression of the MGMT gene and loss of MGMT expression, which leads to reduced DNA repair and retention of alkyl groups, making alkylating drugs more effective in patients with MGMT promoter hypermethylation. The methylation level of the MGMT promoter is a powerful predictor of responsiveness to alkylating medications and one of the most significant prognostic factors in GBMs.
p16INK4a/CDK4/RB1 Pathway
The CDKN2A binds specifically to CDK4 cyclin and inhibits the CDK4/cyclin D1 complex, preventing the cell cycle from entering S-phase [49]. As a result, abnormal activity of any of the p16INK4a, CDK4, or RB1 genes could result in the loss of typical RB1 function. This route is frequently inactivated in both primary and secondary GBMs.
Immune Checkpoints
In addition to alterations in cell communication and growth factors, the capacity of the GBM to evade immune system surveillance contributes to its aggressive nature. Through the generation of immunosuppressive cytokines, GBM has found a way for dampening the immune response [50].The antigens cytotoxic T-lymphocyte (CTLA 4) & programmed cell death protein (PD-1) have an influence on immune reduction [51].
CTLA-4 is exclusively located on T cells and controls T-lymphocyte stimulation in the initial stages by interfering with the costimulatory protein CD28 for B7 ligand binding [52, 53].
Furthermore, PD-1 modulates immunity at several stages of the immune response, influencing T-cell activity in peripheral tissues [54]. PD-L1, a PD-1 ligand, and CTLA-4 have high levels of mRNA expression in mesenchymal GBMs, suggesting a relationship between immune checkpoint proteins and GBM severity [55]. According to findings from phase III research utilizing a dendritic cell vaccine (DCVax-L), CTLA-4 activity can predict survival in GBM patients, suggesting that CTLA-4 might be used as a biomarker for treatment response. A randomized phase II/III study of ipilimumab in combination with TMZ in patients with early diagnosed glioblastoma is also being planned by the RTOG.
Several Glioblastoma Markers
a) NESTIN
Nestin has recently been found as an endothelial cell-enriched protein in all adult vascular beds. Nestin expression in tumors is not confined to cancer cells but also occurs in newly formed tumor vasculature [56], and it is a useful marker of continuing angiogenesis and CSCs [57]. In some malignancies, nestin expression is linked to metastasis and aggressive development [58].
Nestin regulates proliferation, stemness, and invasion in glioblastoma cells via modifying HSC71 (gene HSPA8). As a result, inhibiting Nestin and/or HSC71 could be a useful molecular target therapy for glioblastoma. [59]
The activation of the KRAS/Notch route promotes NestinPos GSC proliferation, whereas the activation of the Akt/PI3K and p53 pathways promotes radiation resistance. Glioblastoma cells were sensitized to TMZ by suppressing miR-381, which prevents stemness factors such as Nestin. Furthermore, miR-423-5p boosted Nestin expression in GSCs by suppressing its target gene (ING-4) and induced glioblastoma cells to be more resistant to TMZ. As a result, miR-423-5p or miR-381 inhibition in conjunction with TMZ intervention may be a good therapeutic method for decreasing GSC proliferation.
B) SOX-2
SOX-2, also known as sex-determining region Y (SRY)-box 2, is a transcription factor in the sry-related high-mobility group (HMG) box (SOX) family. In glioblastomas, SOX-2 is overexpressed [60]. SOX-2 is demonstrated to play a function in cancer cell metastasis, proliferation, apoptosis, carcinogenesis, and invasion [61].
SOX-2 has been identified to be crucial for growth and survival in glioma and is linked to relapse following chemotherapy or radiotherapy [62]. In developed glioblastoma cells, SOX-2 suppression induces cellular senescence. Furthermore, SOX-2 overexpression is required for GSC maintenance in addition to enhancing invasiveness and migration. One of the most crucial proteins in GBM treatment resistance is this one. Because of the crucial role, it plays in GSC maintenance, inducing resistance to chemotherapy and radiotherapy, the CD133Pos/SOX-2 alliance is appropriate for glioblastoma treatments [63]. Furthermore, SOX-2 has demonstrated different roles for self-renewal in GSCs through its association with FOXG1, one of the most overexpressed genes in glioblastoma [64].
SOX-2 was a primary target of miR-429, which has been identified to function in glioblastoma as either an oncogene or a tumor suppressor. miR-429, by directly targeting SOX-2, had a preventative effect on the proliferation and invasion of glioblastoma cells. By targeting SOX-2-Wnt/-catenin, miR-126-3p sensitized glioblastoma cells to TMZ. Their findings revealed that miR-126-3p suppresses SOX-2 expression, hence blocking the Wnt/-catenin pathway. Similarly, another study found that miR-145 increased the chemosensitivity of GSCs to desmethoxycurcumin (DMC) through targeting SOX-2-Wnt/-catenin.GSC state characteristics and maintenance have also been demonstrated to be hindered by miR-34a's suppression of SOX-2 and Nanog. Additionally, SOX-2 was discovered to be a direct target of miR-124, resulting in decreased migration and self-renewal in GSCs.
c) CD133
CD133 acts as a cancer stem cell marker in glioblastoma (GBM) cells that can commence neurosphere growth and produce heterogeneous tumors. However, even though CD133-negative cells exhibit identical features, there is no hierarchical relationship between CD133-positive and CD133-negative cells that comprise the neurospheres. Indeed, CD133 emerges in an interconvertible state, switching between the cytoplasm and the plasma membrane of neurosphere cells. The use of lentivirus-mediated short hairpin RNA to silence CD133 in human GBM neurospheres affects neurosphere cell self-renewal and tumorigenicity [65].
According to the studies, the more the expression of CD133 in GBM patients, the bigger the malignancy potential of the cells. Based on the literature assessment, it is clear that CD133 is critical for the malignant oncogenic potential of GBM stem cells since its silencing inhibits both self-renewal and tumorigenic capacity. However, certain CD133-negative cells can produce aggressive cancers, which is a little conflicting finding [66].
d) CD44
CD44 is a transmembrane molecule that has many isoforms and is overexpressed in GBM, where it promotes tumor development through interactions with the tumor microenvironment. CD44 increases tumor cell invasion, proliferation, and resistance to conventional chemoradiation therapy, promoting GBM aggressiveness. In GBM, CD44 shows an inhibitory influence also [67].
e) CD15
CD15 is a disaccharide that contains 3-fucosyl-N-acetyllactosamine and is also known as stage-specific embryonic antigen 1. [68-70] CD15 has been demonstrated to be highly expressed on pluripotent SCs and neural stem cells (NSCs) in the adult brain, where it is thought to play a role in cell-cell interaction throughout neuronal maturation. [68, 71]. PN subtype GSCs have a high level of CD15 expression on the cell surface, associated with CD133.
CD15 expression was observed to be increased in non-CSCs under hypoxic circumstances. Hypoxia does, in fact, trigger sphere formation in glioblastoma-sorted non-CSCs, and those freshly formed spheres are strongly expressed in SC markers such as CD15. This suggests that CD15Pos GSCs can be activated throughout dedifferentiation in a hypoxic environment and that this interaction between non-GSCs and GSCs may promote cancer progression. The therapeutic doses of TMZ significantly raised the expression of numerous gliomas stem cell markers, such as CD15 and CD133, in vitro and in vivo glioblastoma cells can restart GSC features, including an increase in the expression of CD133 and CD15, following continued TMZ exposure. Similarly, N-(p-coumaroyl) serotonin therapy resulted in a significant dose-dependent increase in the number of CD15 markers in GBM [72].
f) OCT4
OCT-4 expressed in astrocytic brain cancers. OCT-4, like GLI1, has a transcriptional regulatory mechanism involving secreted phosphoprotein 1. (SPP1). Both OCT-4 and GLI1 are overexpressed in glioma-initiating cells and glioblastoma, and this axis maintains the stemness phenotype through binding to the SPP1 gene [73] GLI1 is a member of the SHH pathway that is overexpressed in glioblastoma tumors. It upregulates not just OCT-4 but also Nanog and SOX-2, whereas its inhibition downregulates OCT-4 and Nanog. GLI1activated by the Akt pathway. [74].GLI1 inhibition causes glioblastoma growth suppression. [75] The crosstalk between Akt and OCT-4 was validated. They found that Akt might indirectly influence OCT-4 mRNA levels, transcriptional activity, and protein stability in ESCs. Other research has found that knocking down OCT-4 in embryonic cancer cells increased Akt expression levels, whereas inhibiting the Akt pathway increased OCT-4 expression in GSCs. [76, 77]. These findings point to a negative regulatory connection between Akt and OCT-4.
g) CD70 (CD27L)
CD70 association with CD27 regulates the activity of cytotoxic T lymphocytes, extending the life of mice with renal cell carcinoma [82] The co-expression of CD70 and CD163 in M2 macrophages was discovered to be linked to shorter survival of GBM patients. These findings suggest that CD70 increases tumor immunosuppression and aggressiveness by activating and recruiting tumor-associated macrophages [80].
h) S100A4
This protein is a trophic factor with a wide range of functions discovered in the CNS. [84, 85]. S100A4 is significantly overexpressed in the injured human brain[86].S100A4 interacts with ErbB4 ligand and neuregulin (NRG), and this signaling is important for neuroprotection in a damaged or wounded brain. In numerous malignancies, including glioblastoma, S100A4 has been identified as a prognostic marker, metastasis promoter, and regulator. [87],
S100A4 played a role in glioma progression with MES characteristics. A recent study offered more solid clarification and definitive evidence for S100A4's roles as a crucial regulator and a novel marker of GSCs. S100A4Pos cells were demonstrated to be capable of beginning tumors and generating spheres, and S100A4 is required for GSC self-renewal. While the molecular mechanism that promotes GSC self-renewal and maintenance remains unknown, it appears that S100A4 is involved in the upstream processes of EMT and MES transition. [87]. S100A4 knockdown prolonged the anti-VEGF treatment profile, reducing glioblastoma resistance to antiangiogenic therapy. As a result, inhibiting S100A4 may be a potential strategy for limiting glioma malignancy. [88, 89]. CCAAT/enhancer-binding protein (C/EBP) inhibition significantly reduced S100A4 levels in glioblastoma cells, resulting in inhibitions of growth, transformation capacity, and migration. Thus, targeting C/EBP in glioblastoma cells is therapeutically advantageous to inhibit the S100A4 gene [90].
i) ALDH1A3
ALDH1A3 has been identified as a marker that promotes GSCs and corresponds with the MES phenotype and invasion in human glioblastoma. [92-94] The PN subtype was more prevalent in gliomas with reduced ALDH1A3 expression. and ALDH1A3 inhibition decreased the growth of PN GSCs [95]. ALDH1A3 was also found to be not only connected with the MES lineage of GBM but also to be a critical driver in promoting MES subtype differentiation [96].
Transcriptional factor FOXD1 has direct control on ALDH1A3 transcription. FOXD1-ALDH1A3 signaling was identified as a critical route in the self-renewal and tumorigenicity of MES GSCs. As a result, it offers a potential new molecular target for treating GBM. [97], where it increases stem cell-like qualities by promoting the production of tissue transglutaminase (tTG), an enzyme previously associated with the onset and progression of aggressive cancers tTG promotes the aggressiveness of MES GSCs in glioblastoma cells by increasing proliferation, self-renewal, and survival. Inhibiting this enzyme with TMZ or radiotherapy reduced cell growth and increased cell death. These findings suggest that ALDH1A3 plays a new role in the aggressive MES GSCs phenotype via tTG overexpression.
j) NANOG
Nanog has been identified as a new hedgehog (HH) and glioma-associated oncogenes (GLI) signaling pathway mediator that is required for glioblastomas. In patients with low- and high-grade gliomas, Nanog expression levels beyond a particular threshold were connected to a worse chance of survival [98]. a pathologically significant connection with Nanog and CD133 co-expression They found that Nanog overexpression and its strong association with the undifferentiated condition of glioblastoma led to carcinogenesis by keeping the tumor undifferentiated. Nanog inhibition may prevent glioblastoma carcinogenesis, and targeting Nanog may be an effective way to improve therapeutic intervention for poorly differentiated glioblastoma. Similarly, under hypoxic conditions, Nanog and CD133 were found to have a favorable association. In addition to CD133, hypoxia consistently increased Nanog expression in glioblastoma cell types [99].
According to the above-mentioned information, Glioblastoma Markers can be used to detect the previously described alterations in a minimally invasive method. These indications can also be used to evaluate if a person's prognosis is favorable or unfavorable, as well as to identify individuals who do not react to treatment.
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Dear editorial department: On behalf of our team, I hereby certify the reliability and superiority of the International Journal of Clinical Case Reports and Reviews in the peer review process, editorial support, and journal quality. Firstly, the peer review process of the International Journal of Clinical Case Reports and Reviews is rigorous, fair, transparent, fast, and of high quality. The editorial department invites experts from relevant fields as anonymous reviewers to review all submitted manuscripts. These experts have rich academic backgrounds and experience, and can accurately evaluate the academic quality, originality, and suitability of manuscripts. The editorial department is committed to ensuring the rigor of the peer review process, while also making every effort to ensure a fast review cycle to meet the needs of authors and the academic community. Secondly, the editorial team of the International Journal of Clinical Case Reports and Reviews is composed of a group of senior scholars and professionals with rich experience and professional knowledge in related fields. The editorial department is committed to assisting authors in improving their manuscripts, ensuring their academic accuracy, clarity, and completeness. Editors actively collaborate with authors, providing useful suggestions and feedback to promote the improvement and development of the manuscript. We believe that the support of the editorial department is one of the key factors in ensuring the quality of the journal. Finally, the International Journal of Clinical Case Reports and Reviews is renowned for its high- quality articles and strict academic standards. The editorial department is committed to publishing innovative and academically valuable research results to promote the development and progress of related fields. The International Journal of Clinical Case Reports and Reviews is reasonably priced and ensures excellent service and quality ratio, allowing authors to obtain high-level academic publishing opportunities in an affordable manner. I hereby solemnly declare that the International Journal of Clinical Case Reports and Reviews has a high level of credibility and superiority in terms of peer review process, editorial support, reasonable fees, and journal quality. Sincerely, Rui Tao.
Clinical Cardiology and Cardiovascular Interventions I testity the covering of the peer review process, support from the editorial office, and quality of the journal.
Clinical Cardiology and Cardiovascular Interventions, we deeply appreciate the interest shown in our work and its publication. It has been a true pleasure to collaborate with you. The peer review process, as well as the support provided by the editorial office, have been exceptional, and the quality of the journal is very high, which was a determining factor in our decision to publish with you.
The peer reviewers process is quick and effective, the supports from editorial office is excellent, the quality of journal is high. I would like to collabroate with Internatioanl journal of Clinical Case Reports and Reviews journal clinically in the future time.
Clinical Cardiology and Cardiovascular Interventions, I would like to express my sincerest gratitude for the trust placed in our team for the publication in your journal. It has been a true pleasure to collaborate with you on this project. I am pleased to inform you that both the peer review process and the attention from the editorial coordination have been excellent. Your team has worked with dedication and professionalism to ensure that your publication meets the highest standards of quality. We are confident that this collaboration will result in mutual success, and we are eager to see the fruits of this shared effort.
Dear Dr. Jessica Magne, Editorial Coordinator 0f Clinical Cardiology and Cardiovascular Interventions, I hope this message finds you well. I want to express my utmost gratitude for your excellent work and for the dedication and speed in the publication process of my article titled "Navigating Innovation: Qualitative Insights on Using Technology for Health Education in Acute Coronary Syndrome Patients." I am very satisfied with the peer review process, the support from the editorial office, and the quality of the journal. I hope we can maintain our scientific relationship in the long term.
Dear Monica Gissare, - Editorial Coordinator of Nutrition and Food Processing. ¨My testimony with you is truly professional, with a positive response regarding the follow-up of the article and its review, you took into account my qualities and the importance of the topic¨.
Dear Dr. Jessica Magne, Editorial Coordinator 0f Clinical Cardiology and Cardiovascular Interventions, The review process for the article “The Handling of Anti-aggregants and Anticoagulants in the Oncologic Heart Patient Submitted to Surgery” was extremely rigorous and detailed. From the initial submission to the final acceptance, the editorial team at the “Journal of Clinical Cardiology and Cardiovascular Interventions” demonstrated a high level of professionalism and dedication. The reviewers provided constructive and detailed feedback, which was essential for improving the quality of our work. Communication was always clear and efficient, ensuring that all our questions were promptly addressed. The quality of the “Journal of Clinical Cardiology and Cardiovascular Interventions” is undeniable. It is a peer-reviewed, open-access publication dedicated exclusively to disseminating high-quality research in the field of clinical cardiology and cardiovascular interventions. The journal's impact factor is currently under evaluation, and it is indexed in reputable databases, which further reinforces its credibility and relevance in the scientific field. I highly recommend this journal to researchers looking for a reputable platform to publish their studies.
Dear Editorial Coordinator of the Journal of Nutrition and Food Processing! "I would like to thank the Journal of Nutrition and Food Processing for including and publishing my article. The peer review process was very quick, movement and precise. The Editorial Board has done an extremely conscientious job with much help, valuable comments and advices. I find the journal very valuable from a professional point of view, thank you very much for allowing me to be part of it and I would like to participate in the future!”
Dealing with The Journal of Neurology and Neurological Surgery was very smooth and comprehensive. The office staff took time to address my needs and the response from editors and the office was prompt and fair. I certainly hope to publish with this journal again.Their professionalism is apparent and more than satisfactory. Susan Weiner
My Testimonial Covering as fellowing: Lin-Show Chin. The peer reviewers process is quick and effective, the supports from editorial office is excellent, the quality of journal is high. I would like to collabroate with Internatioanl journal of Clinical Case Reports and Reviews.
My experience publishing in Psychology and Mental Health Care was exceptional. The peer review process was rigorous and constructive, with reviewers providing valuable insights that helped enhance the quality of our work. The editorial team was highly supportive and responsive, making the submission process smooth and efficient. The journal's commitment to high standards and academic rigor makes it a respected platform for quality research. I am grateful for the opportunity to publish in such a reputable journal.
My experience publishing in International Journal of Clinical Case Reports and Reviews was exceptional. I Come forth to Provide a Testimonial Covering the Peer Review Process and the editorial office for the Professional and Impartial Evaluation of the Manuscript.