Overview of the FFPE Cell Pellet Product Lines
Formalin-fixed paraffin-embedded (FFPE) cell pellets are crucial in preserving cellular structures and molecular components for long-term storage and analysis. The FFPE process involves fixing cells in formaldehyde, followed by embedding them in paraffin wax, enabling their storage at room temperature without significant degradation. This preservation method has revolutionized research in biological and medical fields, allowing the long-term study of cellular and molecular characteristics.
Cell pellets are the most consistent and ideal control materials for immunohistochemistry (IHC), in situ hybridization (ISH), and NGS applications. Creative Bioarray offers the most comprehensive list of high-quality and affordable FFPE cell pellets to fit your specific research objectives best. Our full range of cell pellet products is available in various formats to suit your research and clinical testing.
Animal Cell Pellets
FFPE cell pellets derived from animal cell lines have become indispensable tools in biomedical research. The utilization of FFPE animal cell pellets has significantly advanced the understanding of cellular processes, disease mechanisms, and drug responses. These cell pellets serve as invaluable resources for studying cell morphology, protein expression, and genetic alterations in various animal models.
Brain Tumor Cell Pellets
The study of brain tumors requires reliable and well-preserved cell models. FFPE brain tumor cell pellets offer a wealth of information on the molecular and cellular characteristics of brain tumors. These cell pellets enable researchers to investigate specific biomarkers, genetic mutations, and signaling pathways associated with different brain tumor subtypes, contributing to the development of targeted therapies and diagnostic tools.
Breast Tumor Cell Pellets
FFPE cell pellets derived from breast tumor cell lines serve as vital resources for studying breast cancer progression, metastasis, and treatment responses. Different collections of breast tumor cell pellets encompass diverse subtypes, providing researchers with valuable models for exploring the heterogeneity of breast cancer and identifying potential therapeutic targets.
Cervical Tumor Cell Pellets
Understanding the molecular alterations underlying cervical tumors is critical for improving diagnostic and therapeutic strategies. The FFPE cervical tumor cell pellets facilitate in-depth investigations into the molecular pathways, biomarker expression, and drug sensitivities relevant to cervical cancer. These cell pellets are instrumental in elucidating the genetic and epigenetic changes driving cervical tumorigenesis.
Colon Tumor Cell Pellets
The availability of FFPE cell pellets derived from colon tumor cell lines is essential for advancing colorectal cancer research. A comprehensive selection of colon tumor cell pellets, enables researchers to analyze the genetic, proteomic, and histopathological features of colon tumors. These cell pellets contribute to the identification of potential prognostic markers and therapeutic targets for colorectal cancer.
Kidney Tumor Cell Pellets
The study of kidney tumors necessitates well-characterized cell models that accurately recapitulate the molecular features of these malignancies. FFPE kidney tumor cell pellets serve as valuable tools for investigating the genetic and phenotypic diversity of kidney tumors. Researchers can utilize these cell pellets to explore the tumor microenvironment, drug responses, and potential immunotherapeutic targets in renal cell carcinoma.
Leukemia Cell Pellets
FFPE cell pellets derived from leukemia cell lines are instrumental in unraveling the complex molecular landscape of hematological malignancies. A diverse range of leukemia cell pellets provides researchers with invaluable resources for studying leukemogenesis, identifying therapeutic vulnerabilities, and monitoring disease progression. These cell pellets are indispensable for characterizing the genetic and epigenetic alterations driving different subtypes of leukemia.
Liver Tumor Cell Pellets
The study of liver tumors relies on well-preserved cell models that accurately represent the molecular and histopathological characteristics of hepatocellular carcinoma and other liver malignancies. Types of collection of FFPE liver tumor cell pellets facilitate comprehensive investigations into the molecular underpinnings of liver cancer, including genomic alterations, tumor heterogeneity, and drug resistance mechanisms.
Lung Tumor Cell Pellets
Investigating the complexities of lung cancer necessitates access to high-quality FFPE cell pellets derived from lung tumor cell lines. Lung tumor cell pellets provide researchers with valuable tools for dissecting the molecular and cellular features of lung tumors, including genetic mutations, tumor heterogeneity, and immune evasion mechanisms. These cell pellets are instrumental in advancing our understanding of lung cancer biology and guiding the development of targeted therapies.
Lymphoma Cell Pellets
FFPE cell pellets derived from lymphoma cell lines are indispensable for studying the pathogenesis and treatment responses of lymphoid malignancies. The collection of lymphoma cell pellets offers a diverse array of subtypes, enabling researchers to explore the genetic, proteomic, and immunophenotypic characteristics of lymphoma. These cell pellets are invaluable for delineating the molecular subtypes of lymphoid neoplasms and identifying potential therapeutic targets.
Melanoma Cell Pellets
Understanding the molecular mechanisms driving melanoma progression and therapeutic resistance is crucial for improving patient outcomes. The FFPE melanoma cell pellet provides researchers with an important tool to study the genetic, epigenetic, and immunological characteristics of melanoma.
Ovarian Tumor Cell Pellets
FFPE ovarian tumor cell pellets are essential for studying the molecular characteristics, histopathological features, and potential therapeutic targets unique to ovarian cancer. These cell pellets facilitate in-depth investigations into ovarian tumor heterogeneity, genetic mutations, and signaling pathways, supporting efforts to improve diagnosis and treatment outcomes for ovarian cancer patients.
Pancreatic Tumor Cell Pellets
The availability of FFPE pancreatic tumor cell pellets is instrumental in advancing the understanding of pancreatic cancer, a disease with a high mortality rate and limited treatment options. These cell pellets enable researchers to analyze the genetic and molecular alterations driving pancreatic tumorigenesis, identify biomarkers for early detection, and explore novel therapeutic interventions to combat this challenging disease.
Prostate Tumor Cell Pellets
FFPE prostate tumor cell pellets play a crucial role in elucidating the molecular mechanisms underlying prostate cancer progression, metastasis, and treatment resistance. These cell pellets serve as valuable resources for investigating the genetic, proteomic, and molecular phenotypes of prostate tumors, contributing to the development of personalized treatment strategies and the identification of predictive biomarkers.
Stomach Tumor Cell Pellets
FFPE stomach tumor cell pellets are indispensable for studying the molecular subtypes, genetic alterations, and microenvironmental characteristics of stomach (gastric) cancer. These cell pellets provide researchers with essential tools to explore the heterogeneity of gastric tumors, investigate potential therapeutic targets, and advance our understanding of the mechanisms driving gastric cancer development and progression.