Stem Cells & Regenerative Medicine
Featured Products
- Swine Skeletal Muscle Fibroblasts
- Swine Pancreatic Islets Cells
- Swine Lung Alveolar Cells
- Swine kidney Fibroblasts
- Swine Hepatocytes
- Swine Dermal Fibroblats
- Swine Cardiomyocytes
- Swine Cardiac Fibroblasts
- Rat Sprague Dolly Serum Wistar
- Rat Sprague Dolly Serum SD
- Rat Sprague Dolly Serum Immuno-deficient
- Rat Sprague Dolly Plasma Pooled Wistar
- Rat Sprague Dolly Plasma Pooled SD
- Rat Sprague Dolly Plasma Pooled Immuno-deficient
- Rat Sprague Dolly Plasma Female Immuno-deficient
- Rat Schwann Cells Wistar
- Rat Schwann Cells SD
- Rat Schwann Cells Immuno-deficient
- Rat Pulmonary Fibroblasts Wistar
- Rat Pulmonary Fibroblasts SD
- Rat Pulmonary Fibroblasts Immuno-deficient
- Rat Lymphatic Fibroblasts Wistar
- Rat Lymphatic Fibroblasts SD
- Rat Lymphatic Fibroblasts Immuno-deficient
- Rat IGS Serum Wistar
- Rat IGS Serum SD
- Rat IGS Serum SD
- Rat IGS Serum Immuno-deficient
- Rat IGS Plasma Wistar
- Rat IGS Plasma SD
- Rat IGS Plasma Pooled Wistar
- Rat IGS Plasma Pooled SD
- Rat IGS Plasma Pooled Immuno-deficient
- Rat IGS Plasma Immuno-deficient
- Rat Hepatocytes Suspension Wistar
- Rat Hepatocytes Suspension SD
- Rat Hepatocytes Suspension Immuno-deficient
- Rat Hepatocytes Plateable-Wistar
- Rat Hepatocytes Plateable-SD
- Rat Hepatocytes Plateable-Immuno-deficient
- Rat Cardiomyocytes Wistar
- Rat Cardiomyocytes SD
- Rat Cardiomyocytes Immuno-deficient
- Rat Cardiac Fibroblasts Wistar
- Rat Cardiac Fibroblasts SD
- Rat Cardiac Fibroblasts Immuno-deficient
- Rat Brain Vascular Pericytes Wistar
- Rat Brain Vascular Pericytes SD
- Rat Brain Vascular Pericytes Immuno-deficient
- Rat Bone Marrow Derived NK Cells Wistar
- Rat Bone Marrow Derived NK Cells Immuno-deficient
- Rat Bone Marrow Derived Muse Cells Wistar
- Rat Bone Marrow Derived Muse Cells SD
- Rat Bone Marrow Derived Muse Cells Immuno-deficient
- Rat Bone Marrow Derived Muse Cells
- Rat Bone Marrow Derived Mononuclear Cells Wistar
- Rat Bone Marrow Derived Mononuclear Cells Immuno-deficient
- Rat Bone Marrow Derived Mononuclear Cells
- Rat Bone Marrow Derived Mesenchymal Stem Cells Wistar
- Rat Bone Marrow Derived Mesenchymal Stem Cells Immuno Deficient
- Rat Bone Marrow Derived Mesenchymal Stem Cells CD
- Rat Bone Marrow Derived Dendritic Cells
- Rat Bone Marrow Derived Dendritic Cells
- Rat Bone Marrow Derived Dendritic Cells
- Primary Human Hepatic Stellate Cells
- Mouse Primary Bone Marrow Derived NK Cells CD1
- Mouse Primary Bone Marrow Derived NK Cells C57
- Mouse Plateable Hepatocytes (CD1)
- Mouse Plateable Hepatocytes (C57)
- Mouse Plateable Hepatocytes (BalbC)
- Mouse NOD SCID Plasma
- Mouse NOD SCID Lung Microsomes Mixed Gender
- Mouse NOD SCID Liver S9 Fraction Mixed Gender
- Mouse NOD SCID Liver Microsomes Mixed Gender
- Mouse NOD SCID Intestinal S9 Fraction Mixed Gender
- Mouse NOD SCID Intestinal Microsomes Mixed Gender
- Mouse NOD SCID Intestinal Cytosol Mixed Gender
- Mouse Muse cells CD1
- Mouse Muse cells C57
- Mouse Muse cells BalbC
- Mouse Lung S9 Fraction Mixed Gender
- Mouse Lung Microsomes Mixed Gender
- Mouse Lung Lysosomes Mixed Gender
- Mouse Lung Cytosol Mixed Gender
- Mouse Liver S9 Fraction Mixed Gender
- Mouse Liver Microsomes Mixed Gender
- Mouse Liver Microsomes Mixed Gender
- Mouse Liver Lysosomes Mixed Gender
- Mouse Liver Cytosol Mixed Gender
- Mouse Intestinal S9 Fraction Mixed Gender
- Mouse Intestinal Microsome Mixed Gender
- Mouse Intestinal Lysosomes Mixed Gender
- Mouse Intestinal Cytosol Mixed Gender
- Mouse Hybrid Plasma
- Mouse Hybrid Lung S9 Fraction Mixed Gender
- Mouse Hybrid Lung Microsomes Mixed Gender
- Mouse Hybrid Lung Lysosomes Mixed Gender
- Mouse Hybrid Lung Cytosol Mixed Gender
- Mouse Hybrid Liver S9 Fraction Mixed Gender
- Mouse Hybrid Liver Microsomes Mixed Gender
- Mouse Hybrid Liver Lysosomes Mixed Gender
- Mouse Hybrid Liver Cytosol Mixed Gender
- Mouse Hybrid Intestinal S9 Fraction Mixed Gender
- Mouse Hybrid Intestinal Microsomes Mixed Gender
- Mouse Hybrid Intestinal Lysosomes Mixed Gender
- Mouse Hybrid Intestinal Cytosol Mixed Gender
- Mouse Hepatocytes Suspension CD1
- Mouse Hepatocytes Suspension C57
- Mouse Hepatocytes Suspension BalbC
- Mouse Derived Mesenchymal Stem Cells
- Mouse Derived Dendritic Cells
- Mouse DBA S9 Fraction Mixed Gender
- Mouse DBA Plasma
- Mouse DBA Lung S9 Fraction Mixed Gender
- Mouse DBA Lung Microsomes Mixed Gender
- Mouse DBA Lung Lysosome Mixed Gender
- Mouse DBA Lung Cytosol Mixed Gender
- Mouse DBA Liver S9 Fraction Mixed Gender
- Mouse DBA Liver Lysosomes Mixed Gender
- Mouse DBA Liver Cytosol Mixed Gender
- Mouse DBA Intestinal Microsomes Mixed Gender
- Mouse DBA Intestinal Lysosomes Mixed Gender
- Mouse DBA Intestinal Cytosol Mixed Gender
- Mouse Cytosol Mixed Gender
- Mouse Cardiomyocytes CD1
- Mouse Cardiomyocytes C57
- Mouse Cardiomyocytes BalbC
- Mouse Cardiac Fibroblasts CD1
- Mouse Cardiac Fibroblasts C57
- Mouse Cardiac Fibroblasts BalbC
- Mouse C57 BL/6N Plasma
- Mouse C57 BL/6N Lung S9 Fraction Mixed Gender
- Mouse C57 BL/6N Lung Microsomes Mixed Gender
- Mouse C57 BL/6N Lung Lysosomes Mixed Gender
- Mouse C57 BL/6N Lung Cytosol Mixed Gender
- Mouse C57 BL/6N Liver S9 Fraction Mixed Gender
- Mouse C57 BL/6N Liver Microsomes Mixed Gender
- Mouse C57 BL/6N Liver Lysosomes Mixed Gender
- Mouse C57 BL/6N Liver Cytosol Mixed Gender
- Mouse C57 BL/6N Intestinal S9 Fraction Mixed Gender
- Mouse C57 BL/6N Intestinal Microsomes Mixed Gender
- Mouse C57 BL/6N Intestinal Lysosomes Mixed Gender
- Mouse Brain Vascular Pericytes
- 人类脐带血液引出ed NK cells
- 人类脐带血液引出ed Mononuclear cells
- 人类脐带血液引出ed Dendritic Cells
- 人类脐带血液引出ed CD34+ Cells
- Human T Helper Cells
- Human Splenic Fibroblasts
- Human Splenic Endothelial Cells
- Human Skin S9 Fraction Mixed Gender
- Human Skin Derived Microvascular Dermal Endothelial Cells Adult
- Human Skin Derived Epidermal Melanocytes Fetal
- Human Skin Derived Epidermal Melanocytes Adult
- Human Skin Derived Epidermal Keratinocytes Neonatal
- Human Skin Derived Epidermal Keratinocytes Fetal
- Human Skin Derived Epidermal Keratinocytes Adult
- Human Skin Derived Dermal Fibroblasts Fetal
- Human Skin Derived Dermal Fibroblasts Adult
- Human Serum Peripheral Blood Single Donor
- Human Serum Cord Blood Single Donor
- Human Serum Bone Marrow Single Donor
- Human Seminal vesicles microvascular endothelial cells
- Human Seminal Vesicles Fibroblasts
- Human Seminal Vesicles Endothelial cells
- Human S9 Fraction Heart
- Human S9 Fraction
- Human Pulmonary Small Airway Epithelial Cells
- Human Pulmonary Fibroblasts
- Human Pleatable Hepatocytes Pooled
- Human Plateable Hepatocytes
- Human Plasma Cord Blood Pooled
- Human Plasma
- Human Peripheral Blood-Derived NK Cells
- Human Peripheral Blood-Derived Muse Cells
- Human Peripheral Blood-Derived Mononuclear Cells
- Human Peripheral Blood-Derived Monocytes
- Human Peripheral Blood-Derived Mesenchymal Stem Cells
- Human Peripheral Blood-Derived Cytotoxic T-Cells
- 人类心包成纤维细胞
- Human Ovarian Surface Epithelial Cells
- Human Ovarian Fibroblasts
- Human Muse cells
- Human Microvascular Endothelial Cells
- Human Mammary Smooth Muscle Cells
- Human Mammary Fibroblasts
- Human Mammary epithelial cells
- Human Lung S9 Fraction Mixed Gender
- Human Lung Microsomes Mixed Gender
- Human Liver S9 Fraction Mixed Gender
- Human Liver Microsomes Mixed Gender
- Human Liver Microsomes
- Human Kidney Fibroblasts
- Human Islet Beta Cells
- Human Intestine Microsomes Pooled Mixed Gender
- Human Intestinal S9 Fraction Mixed Gender
- Human Hepatocytes in Suspension
- Human Eye Derived Limbal Fibroblasts
- Human Extra Embryonic Fetal Tissues Derived Mesenchymal Stem Cells
- Human Extra Embryonic Fetal Tissues Derived CD34 Positive Cells
- Human Endometrial Epithelial Cells
- Human Dental Pulp Derived Mesenchymal stem cells
- Human Dental Pulp Derived Gingival Fibroblasts
- Human Cytotoxic T Cells
- Human Cardiomyocytes
- Human Cardiac Fibroblasts
- Human Bronchial Fibroblasts
- Human Bone Marrow-Derived NK Cells
- Human Bone Marrow-Derived Mononuclear cells
- Human Bone Marrow-Derived Mesenchymal Stem Cells
- Human Bone Marrow-Derived Dendritic cells
- Human Bone Marrow-Derived CD 34 positive cells
- Human Aortic Smooth Muscle Cells
- Human Aortic Endothelial Cells
- Human Adipose Tissue-Derived Stromal Vascular Fraction
- Human Adipose Tissue-Derived Preadipocytes
- Human Adipose Tissue derived Mesenchymal Stem cells
Drop your Query
Regenerative medicine is identified to be the most recently emerging branch of medical sciences, which has gained tremendous attention in recent years, due to its potential to tackle multiple issues, including functional restoration of tissues. Ever since their discovery, they have been the object of great excitement and much controversy amongst the scientific world and the general population. While stem cell research is heading toward being used as a mainstream treatment, it is important to understand the different flavors of its potency and current applications in biomedical science; as well as Kosheeka’s contribution towards the same.
每一天,研究人员想出新betway必威官方网站的surprises with stem cell research, adorning our understanding of the human body and how we can transform our approaches to medicine. Currently, stem cell research has essentially grown to the level, where researchers are trying to understand the underlying pathophysiology of the disease, several important factors to be responsible for regulating stem cell proliferation, differentiation, self-renewal, and further tapping their enormous potential for therapeutic benefits. Some of the major research zones, where stem cells are more generously studied are:
- Normal Human Development
- Drug discovery
- Cellular replacement
- Endogenous self-repair systems
What are the advantages of using stem cells?
Stem cells are known as researcher’s delight due to multiple advantages that outweigh their regulatory obligations for therapeutic applications, and they can be noted as;
- Stem cells are already characterized for their stem cell markers as defined by ISCT/DCGI standards./li>
- With increasing popularity, more and more scientists are working on stem cells with greater results comparability amongst the large populations./li>
- With an increasing understanding of mass-scale production of these stem cells, researchers can increase the consistency of cells, further reducing donor and source-dependent effects./li>
- Increased availability of stem cells from a wide database of tissues that are practically thrown, like extra-embryonic fetal tissues as per regulatory standards./li>
- Availability of suitable growth medium for your process and regulatory requirements that is essential for optimum growth performance and maintenance of multipotent cells./li>
Further to the same, it needs to be noted that for clinical applications of stem cells and related products, it is very important to maintain cellular consistency for viability, morphology, and secreted growth factors.
Our GMP standards maintained for pharmaceutical-grade stem cells enable us to serve the growing demands of stem cells, achieved with the help of streamlined systems and documentation. This will further help us to gain maximum customer satisfaction and reduce the regulatory burden in a stipulated time frame.