天堂网亚洲,天天操天天搞,91视频高清,菠萝蜜视频在线观看入口,美女视频性感美女视频,95丝袜美女视频国产,超高清美女视频图片

Immunosuppressants

Immunosuppressant refers to drugs that can reduce the immune response. It can selectively suppress certain part of the immune response and immune cells. Immunity refers to the body's immune response to a variety of pathogenic substances. Such kinds of response do well to the body and can enhance the body's resistance to disease; some do harm to the body, being able to cause tissue damage or disorders of physiological functions (allergy). In such case, to patients suffering allergic reactions that do harm to the body, we can apply immunosuppressant to suppress the related steps in the immune processes to reduce the immune response of the body. For the treatment of various kinds of autoimmune diseases and weakening the tissue incompatibility, it has developed of a variety of immunosuppressive agents, some of which have been widely used in clinical application.

There are various kinds of immunosuppressants with commonly used immunosuppressants including glucocorticoids (prednisone, prednisolone, etc.), alkylating agents (nitric oxide mustard, cyclophosphamide, thiotepa, busulfan, etc.), and antimetabolites (6-mercaptopurine, azathioprine, methotrexate, etc.).

1. Corticosteroids: Commonly used include cortisone, hydrocortisone, and semi-synthetic prednisone, prednisolone and dexamethasone. The anti-inflammatory and immunosuppressive effects of these hormones are similar.
The mechanism of the immunosuppressive effect of the glucocorticoid inhibition is:
① it has inhibitory effect on the phagocytosis function of the mononuclear phagocyte system and can interfere with the function of macrophages.
② it has destroying effect on the lymphatic tissue with the most sensitive parts being the germinal centers of lymph nodes. But after the stimulation of allogeneic antigen, the inhibitory effect on the antibody synthesis in the usual dose is not significant, while the production of auto-antibodies is significantly inhibited.

The clinical application of glucocorticoids is very wide, mainly including the following three aspects:
① autoimmune diseases such as rheumatoid arthritis, systemic lupus erythematosus, nodular peripheral arterial inflammation, dermatomyositis, scleroderma, and nephrotic symptoms;
② tissue and organ transplantation;
③ allergic diseases such as bronchial asthma, anaphylactic shock, angioneurotic edema.

2. Azathioprine: inhibition of various kinds of immune responses mediated by killer cells and T cell (mixed lymphocyte reaction, allograft rejection and delayed-type hypersensitivity, etc.). Upon large doses, it inhibits the antibody formation with the inhibitory effect on the primary reactions being much stronger than the secondary reactions. It can strongly inhibit the production of macrophage precursor - monocytes, leading to inhibition of phagocytosis. Also change lymphocyte recirculation.
It is commonly apply to renal transplant patients in clinical application with no humoral immune suppression observed during the administration period. It is often combined with cortical steroids for the treatment of autoimmune diseases.

3. Cyclophosphamide: cyclophosphamide selectively inhibit B cells, inhibit various kinds of antigen-induced antibody synthesis (including primary and secondary immune response), as well as induce the antigen tolerance of the bodies.
The humoral immunosuppression of cyclophosphamide is primarily achieved by dissolving the lymphocytes with one-time injection causing the dramatic reduction of the cell count in spleen, lymph nodes and other lymphoid tissues and the number of lymphocytes in the blood. Cyclophosphamide mainly takes effect on the immature cells; inhibits their proliferation. The matured antibody-forming cells are insensitive to cyclophosphamide. In recent years, it was found that cyclophosphamide also has strong inhibitory effect on certain subsets of T cells with large doses being able to inhibit the anti-host reaction of the transplanted matter and delayed-type hypersensitivity. However, if administered before sensitization, it will instead promote the delayed-type hypersensitivity.

Cyclophosphamide is ineffective in vitro and will take effect after being subject to the metabolism in vivo.
It is clinically used for the treatment of various autoimmune diseases to which cortical steroid are invalid as well as reducing the titer of auto-antibodies. It can also prolong the survival time of the transplanted organ.

Click on the specific product, view the latest prices of the products, information, serving information
Structure Chemical Name CAS MF
Pimecrolimus Pimecrolimus 137071-32-0 C43H68ClNO11
Cyclosporin A Cyclosporin A 59865-13-3 C62H111N11O12
Cyclophosphamide monohydrate Cyclophosphamide monohydrate 6055-19-2 C7H17Cl2N2O3P
Ifosfamide Ifosfamide 3778-73-2 C7H15Cl2N2O2P
Hydroxyurea Hydroxyurea 127-07-1 CH4N2O2
Mycophenolic acid Mycophenolic acid 24280-93-1 C17H20O6
Tacrolimus Tacrolimus 104987-11-3 C44H69NO12
Ethylenediamine Ethylenediamine 107-15-3 C2H8N2
NAFAMOSTAT MESYLATE NAFAMOSTAT MESYLATE 81525-10-2 C19H17N5O2
Azathioprine Azathioprine 446-86-6 C9H7N7O2S
Lemborexant Lemborexant 1369764-02-2 C22H20F2N4O2
Cyclophosphamide Cyclophosphamide 50-18-0 C7H15Cl2N2O2P
Mycophenolate mofetil Mycophenolate mofetil 115007-34-6 C23H31NO7
Tacrolimus Monohydrate Tacrolimus Monohydrate 109581-93-3 C44H71NO13
4,4'-propylenebis(piperazine-2,6-dione) 4,4'-propylenebis(piperazine-2,6-dione) 21416-67-1 C11H16N4O4
Cyclophosphamide-d4 Cyclophosphamide-d4 173547-45-0 C7H15Cl2N2O2P
115007-34-6 115007-34-6 115007-34-6
HYDROXYGUANIDINE SULFATE HYDROXYGUANIDINE SULFATE 6345-29-5 C2H12N6O6S
Nafamostat mesylate Nafamostat mesylate
Ethyl dimorpholine Ethyl dimorpholine C10H20N2O2
  • 1
HomePage | Member Companies | Advertising | Contact us | Previous WebSite | MSDS | CAS Index | CAS DataBase
Copyright © 2016 ChemicalBook All rights reserved.