5 Best Medical Stocks To Own Right Now

Normal neural activity results from a balance of electrical and chemical signals that are vulnerable to disruption by trauma to the nervous system.�Similar to the way a cardiac pacemaker corrects heartbeat abnormalities, neuromodulation therapies help to re-establish normal neural function by�allowing focused delivery of therapeutic agents to precisely targeted areas of the nervous system.�

The most common neuromodulation therapy is spinal cord stimulation.�California's privately owned Spinal Modulation has developed a new pain management option for patients with chronic, intractable pain -- the Axium Neurostimulator System, which targets the dorsal root ganglion of the spinal cord and consists of a specialized lead, delivery platform, and electrical stimulator.

St. Jude Medical (NYSE: STJ  ) �announced�Friday that it has entered into a series of agreements whereby St. Jude will invest $40 million in SM. The agreement provides St. Jude with an exclusive option to distribute the Axium Neurostimulator in international markets in which it is approved for sale. St. Jude will also have the exclusive option to acquire all of SM for up to $300 million, plus payment of certain revenue-based milestones, following U.S. commercialization of the product.�

5 Best Medical Stocks To Own Right Now: Scancell Holdings PLC (SCLP)

Scancell Holdings PLC is a United Kingdom-based company. The Company�� principal activity of the consists of the discovery and development of monoclonal antibodies and vaccines for the treatment of cancer. In April 2012, the Company completed recruitment to the Phase 1 clinical trial of SCIBI. In May 2012, the Company commenced recruitment and treatment of the first patient in the second part of it Phase 1/2 clinical trial of SCIBI. The Phase 2 part of the trial is conducted in five United Kingdom centers in Nottingham, Manchester, Newcastle, Leeds, and Southampton. On August 15, 2012, the Company announced the development of a platform technology, Moditope.

5 Best Medical Stocks To Own Right Now: Elan Corporation PLC (ELN)

Elan Corporation, plc (Elan), incorporated in December 1969, is a neuroscience-based biotechnology company. The Company is focused on discovering and developing advanced therapies in neurodegenerative and autoimmune diseases. Elan�� business focuses on neurodegenerative diseases, such as Alzheimer�� disease and Parkinson�� disease; autoimmune diseases, including MS and Crohn�� disease and neo-epitope based targets for treatments across a range of therapeutic indications. Tysabri is a treatment for MS and Crohn�� disease that the Company markets and distributes with Biogen Idec. On September 16, 2011, Elan sold its EDT business to Alkermes, Inc. In November 2011, Elan launched a collaboration with the University of Cambridge, England, the Cambridge-Elan Centre for Research Innovation and Drug Discovery (Cambridge-Elan Centre). On December 21, 2012, the Company completed the demerger of Prothena Corporation plc. In April 2013, it closed the TYSABRI (natalizumab) Collaboration Transaction with Biogen Idec.

Tysabri

Tysabri, which is an alpha-4 integrin inhibitor, is a therapy for MS, a neurological disorder involving central nervous system dysfunction among adults. Tysabri is approved in more than 65 countries. Tysabri is approved in the United States as a monotherapy for relapsing forms of MS, for patients who have had an inadequate response to, or are unable to tolerate, an alternative MS therapy. In the European Union, it is approved for relapsing-remitting MS (RRMS) in adult patients who have failed to respond to beta interferon or have rapidly evolving, severe RRMS. As of December 31, 2011, there were approximately 64,400 patients on Tysabri therapy worldwide.

In June 2011, the European Commission (EC) approved the inclusion of the anti-JCV antibody status as an additional factor in stratifying patients at risk for developing PML in the Summary of Product Characteristics��(SmPC) for Tysabri in the European Union. The Company has developed a two-step ! enzyme-linked immunosorbent assay (ELISA), STRATIFY JCV, with Biogen Idec. The assay detects anti-JCV antibodies in the blood of patients, and is commercially available in Europe. In January 2012, the FDA cleared the assay for commercial use in the United States. As of December 31, 2011, over 80,000 tests had been administered using the assay. Tysabri is marketed and distributed by Elan and Biogen Idec. The Company�� research group, Neotope, is focused on creating monoclonal antibodies based on neo-epitope targets for the treatment of a range of therapeutic indications.

Beta Amyloid Immunotherapies (AIP)

Beta amyloid immunotherapy includes the treatment of Alzheimer�� disease by inducing or enhancing the body�� immune response in order to clear toxic species of beta amyloid from the brain. The AIP includes bapineuzumab (intravenous and subcutaneous delivery) and ACC-001, as well as other compounds. Bapineuzumab is an experimental humanized monoclonal antibody delivered intravenously that is being studied as a treatment for mild to moderate Alzheimer�� disease. It is designed to provide antibodies to beta amyloid directly to the patient (passive immunotherapy).

ELND005, an A� Aggregation Inhibitor

The small molecule ELND005 (Scyllo-inositol) is a beta amyloid anti-aggregation agent. Preclinical data suggest that ELND005 may act through the mechanism of preventing and reversing the fibrilisation of beta amyloid (the aggregation of beta amyloid into clumps of insoluble oligomers). ELND005 may have additional applications in psychiatric indications, such as bipolar disorder. In November 2011, the Company entered into a manufacturing agreement for the supply of the active pharmaceutical ingredient for ELND005 with Lonza Group AG.

Neotope Biosciences Limited

Neotope Biosciences Limited (Neotope) is the Company�� wholly owned subsidiary that focuses on the discovery and development of antibodies to neo-epitope related targ! ets for t! he treatment of a range of indications. It includes amyloidosis, diabetes, cancer and macular degeneration. Neotope�� portfolio of targets includes alpha-synuclein for the potential treatment of synucleinopathies, such as Lewy body dementia and Parkinson�� disease, tau for Alzheimer�� disease and other tauopathies. It also has a program for type 2-diabetes.

Onclave Therapeutics Limited

Elan�� wholly owned subsidiary Onclave Therapeutics Limited (Onclave) was formed to develop assets originating from Elan that have application in oncology related diseases. Onclave�� program, NEOD001, which originated from Neotope, is being investigated for the treatment of AL amyloidosis, which is a fatal disease involving abnormal accumulation of amyloid in organs and tissue. During the year ended December 31, 2011, Onclave filed for orphan drug designation of NEOD001. Onclave�� pipeline includes additional compounds with relevance in diverse cancer indications.

The Company competes with Biogen Idec, Bayer Schering Pharma AG, Bayer Schering Pharma, Merck Serono, Pfizer, Teva Neurosciences, Inc., Sanofi-Aventis and Novartis AG.

Hot Canadian Stocks To Buy For 2014: Telik Inc (TELK.PH)

Telik, Inc. (Telik), incorporated in 1988, is a clinical-stage drug development company focused on discovering and developing small molecule drugs to treat cancer. The Company discovers its product candidates using the Company�� drug discovery technology, Target-Related Affinity Profiling (TRAP). TELINTRA, its principal drug product candidate in clinical development, is a small molecule glutathione analog inhibitor of the enzyme glutathione S-transferase P1-1 (GST P1-1). TELCYTA, its other product candidate, is a small molecule cancer drug product candidate designed to be activated in cancer cells.

Clinical Product Development

TELINTRA is the Company�� lead small molecule product candidate in clinical development for the treatment of blood disorders, including cancer. It has a mechanism of action and acts by inhibiting GST P1-1, an enzyme that is involved in the control of cellular growth and differentiation. Inhibition of GST P1-1 results in the activation of the signaling molecule Jun kinase, a regulator of the function of blood precursor cells. Preclinical tests show that TELINTRA is capable of causing the death or apoptosis of leukemic or malignant blood cells, while stimulating the growth and development of normal blood precursor cells. TELINTRA has been studied in Myelodysplastic Syndrome (MDS) using two formulations. A liposomal formulation was developed for intravenous administration of TELINTRA and was used in Phase I and Phase II studies in MDS patients. The results from the Phase II intravenous liposomal TELINTRA clinical trials demonstrated that TELINTRA treatment was associated with improvement in all three types of blood cell levels in patients with all types of MDS, including those in intermediate and high-risk groups. An oral dosage formulation (tablet) was subsequently developed and results from a Phase I study with TELINTRA tablets showed clinical activity and the formulation to be well tole rated. In June 2011, the Company initiated a Phase II clini! c! al trial to evaluate TELINTRA tablets. In October 2011, the Company initiated an additional Phase IIb clinical trial to evaluate TELINTRA tablets. '

The activity and safety profile of tablet formulation allowed the Company to complete a Phase II trial of TELINTRA tablets in MDS. The primary objective of the Phase II TELINTRA tablet study was to determine the efficacy of TELINTRA. A multivariate logistic regression analysis was conducted to identify MDS disease prognostic factors associated with erythroid improvement response rates, including prior MDS treatment, age, gender, the international prognostic scoring system (IPSS), risk, Eastern Cooperative Group performance status, years from MDS diagnosis, MDS World Health Organization subtypes, anemia only versus anemia plus other cytopenias, dose schedule and starting dose. Results from this study show that TELINTRA is the first GSTP1-1 enzyme inhibitor shown to cause clinically reductions in red blood cell transf usions, including transfusion independence in low to intermediate-1 risk MDS patients, as well as improvement in platelet count and white blood cell levels in certain patients. TELINTRA, administered orally twice daily, appeared to be convenient and flexible for chronic treatment administration.

TELCYTA is a small molecule drug product candidate that the Company is developed for the treatment of cancer. TELCYTA binds to GST. TELCYTA has been evaluated in multiple Phase II and Phase III clinical trials, including trials using TELCYTA as monotherapy and in combination regimens in ovarian, non-small cell lung, breast and colorectal cancer. Results from these clinical trials indicate that TELCYTA monotherapy was generally well-tolerated, with mostly mild to moderate side effects, particularly when compared to the side effects and toxicities of standard chemotherapeutic drugs. When TELCYTA was evaluated in combination with standard chemotherapeutic drugs, the tolera bility of the combinations was similar to that expected! of e! ac! h drug ! alone.

Clinical activity including objective tumor responses and/or disease stabilization was reported in the TELCYTA Phase II trials; however, TELCYTA did not meet its primary endpoints in the Phase III studies. Positive results from a Phase I-IIa multicenter, dose-ranging study of TELCYTA in combination with carboplatin and paclitaxel as first-line therapy for patients with non-small cell lung cancer, or NSCLC, were published in a peer reviewed publication. Clinical data demonstrated positive results of TELCYTA in combination with carboplatin and paclitaxel in the treatment of first-line lung cancer followed by TELCYTA maintenance therapy. As of December 31, 2011, the Company had an on-going investigator-led study at a single site of TELCYTA in patients with refractory or relapsed mantle cell lymphoma, diffuse B cell lymphoma, and multiple myeloma.

Preclinical Drug Product Development

The Company has a small molecule compound, TLK60 404, in preclinical development that inhibits both Aurora kinase and VEGFR kinase. Aurora kinase is a signaling enzyme whose function is required for cancer cell division, while VEGF plays a key role in tumor blood vessel formation, ensuring an adequate supply of nutrients to support tumor growth. These lead compounds prevented tumor growth in preclinical models of human colon cancer and human leukemia by inhibiting both Aurora kinase and VEGFR kinase. A development drug product candidate, TLK60404, has been selected.

The Company, using its TRAP technology has discovered TLK60357, a novel, potent small molecule inhibitor of cell division. TLK60357 inhibits the formation of microtubules that are necessary for cancer cell growth leading to persistent G2/M cancer cell cycle block and subsequent cell death. This compound demonstrates potent broad-spectrum anticancer activity against a number of human cancer cells. This compound also displays oral efficacy in multipl e, standard preclinical models of cancer. TLK6059! 6, a pote! nt! VGFR kin! ase inhibitor, blocks the formation of new blood vessels in tumors. Oral administration of TLK60596 to animal models of human colon cancer reduced tumor growth.

5 Best Medical Stocks To Own Right Now: EntreMed Inc (ENMD)

EntreMed, Inc. (EntreMed), incorporated in 1991, is a clinical-stage pharmaceutical company. EntreMed's drug candidate is ENMD-2076, an Aurora A and angiogenic kinase inhibitor for the treatment of cancer. ENMD-2076 has completed Phase I studies in patients with advanced solid tumors, multiple myeloma and leukemia and is completing data for a multi-center Phase II study in patients with platinum resistant ovarian cancer. The Company�� other product candidates have includes MKC-1, ENMD-1198 and 2-methoxyestrdiol (2ME2, Panzem) for treatment of rheumatoid arthritis.

ENMD-2076 is a novel orally-active, Aurora A/angiogenic kinase inhibitor with potent activity against Aurora A and multiple tyrosine kinases linked to cancer and inflammatory diseases. ENMD-2076 is relatively selective for the Aurora A isoform in comparison to Aurora B. Aurora kinases are key regulators of the process of mitosis, or cell division, and are often over-expressed in human cancers. ENMD-2076 exerts its effects through multiple mechanisms of action, including anti-proliferative activity and the inhibition of angiogenesis. ENMD-2076 has demonstrated significant, dose-dependent preclinical activity as a single agent, including tumor regression, in multiple xenograft models (such as breast, colon, leukemia), as well as activity towards ex vivo-treated human leukemia patient cells.

5 Best Medical Stocks To Own Right Now: Telik Inc (TELK)

Telik, Inc. (Telik), incorporated in 1988, is a clinical-stage drug development company focused on discovering and developing small molecule drugs to treat cancer. The Company discovers its product candidates using the Company�� drug discovery technology, Target-Related Affinity Profiling (TRAP). TELINTRA, its principal drug product candidate in clinical development, is a small molecule glutathione analog inhibitor of the enzyme glutathione S-transferase P1-1 (GST P1-1). TELCYTA, its other product candidate, is a small molecule cancer drug product candidate designed to be activated in cancer cells.

Clinical Product Development

TELINTRA is the Company�� lead small molecule product candidate in clinical development for the treatment of blood disorders, including cancer. It has a mechanism of action and acts by inhibiting GST P1-1, an enzyme that is involved in the control of cellular growth and differentiation. Inhibition of GST P1-1 results in the activation of the signaling molecule Jun kinase, a regulator of the function of blood precursor cells. Preclinical tests show that TELINTRA is capable of causing the death or apoptosis of leukemic or malignant blood cells, while stimulating the growth and development of normal blood precursor cells. TELINTRA has been studied in Myelodysplastic Syndrome (MDS) using two formulations. A liposomal formulation was developed for intravenous administration of TELINTRA and was used in Phase I and Phase II studies in MDS patients. The results from the Phase II intravenous liposomal TELINTRA clinical trials demonstrated that TELINTRA treatment was associated with improvement in all three types of blood cell levels in patients with all types of MDS, including those in intermediate and high-risk groups. An oral dosage formulation (tablet) was subsequently developed and results from a Phase I study with TELINTRA tablets showed clinical activity and the formulation to be well tolerated. In June 2011, the Company initiated a Phase II clinical ! trial to evaluate TELINTRA tablets. In October 2011, the Company initiated an additional Phase IIb clinical trial to evaluate TELINTRA tablets. '

The activity and safety profile of tablet formulation allowed the Company to complete a Phase II trial of TELINTRA tablets in MDS. The primary objective of the Phase II TELINTRA tablet study was to determine the efficacy of TELINTRA. A multivariate logistic regression analysis was conducted to identify MDS disease prognostic factors associated with erythroid improvement response rates, including prior MDS treatment, age, gender, the international prognostic scoring system (IPSS), risk, Eastern Cooperative Group performance status, years from MDS diagnosis, MDS World Health Organization subtypes, anemia only versus anemia plus other cytopenias, dose schedule and starting dose. Results from this study show that TELINTRA is the first GSTP1-1 enzyme inhibitor shown to cause clinically reductions in red blood cell transfusions, including transfusion independence in low to intermediate-1 risk MDS patients, as well as improvement in platelet count and white blood cell levels in certain patients. TELINTRA, administered orally twice daily, appeared to be convenient and flexible for chronic treatment administration.

TELCYTA is a small molecule drug product candidate that the Company is developed for the treatment of cancer. TELCYTA binds to GST. TELCYTA has been evaluated in multiple Phase II and Phase III clinical trials, including trials using TELCYTA as monotherapy and in combination regimens in ovarian, non-small cell lung, breast and colorectal cancer. Results from these clinical trials indicate that TELCYTA monotherapy was generally well-tolerated, with mostly mild to moderate side effects, particularly when compared to the side effects and toxicities of standard chemotherapeutic drugs. When TELCYTA was evaluated in combination with standard chemotherapeutic drugs, the tolerability of the combinations was similar to that expected of each! drug alo! ne.

Clinical activity including objective tumor responses and/or disease stabilization was reported in the TELCYTA Phase II trials; however, TELCYTA did not meet its primary endpoints in the Phase III studies. Positive results from a Phase I-IIa multicenter, dose-ranging study of TELCYTA in combination with carboplatin and paclitaxel as first-line therapy for patients with non-small cell lung cancer, or NSCLC, were published in a peer reviewed publication. Clinical data demonstrated positive results of TELCYTA in combination with carboplatin and paclitaxel in the treatment of first-line lung cancer followed by TELCYTA maintenance therapy. As of December 31, 2011, the Company had an on-going investigator-led study at a single site of TELCYTA in patients with refractory or relapsed mantle cell lymphoma, diffuse B cell lymphoma, and multiple myeloma.

Preclinical Drug Product Development

The Company has a small molecule compound, TLK60404, in preclinical development that inhibits both Aurora kinase and VEGFR kinase. Aurora kinase is a signaling enzyme whose function is required for cancer cell division, while VEGF plays a key role in tumor blood vessel formation, ensuring an adequate supply of nutrients to support tumor growth. These lead compounds prevented tumor growth in preclinical models of human colon cancer and human leukemia by inhibiting both Aurora kinase and VEGFR kinase. A development drug product candidate, TLK60404, has been selected.

The Company, using its TRAP technology has discovered TLK60357, a novel, potent small molecule inhibitor of cell division. TLK60357 inhibits the formation of microtubules that are necessary for cancer cell growth leading to persistent G2/M cancer cell cycle block and subsequent cell death. This compound demonstrates potent broad-spectrum anticancer activity against a number of human cancer cells. This compound also displays oral efficacy in multiple, standard preclinical models of cancer. TLK60596, a potent VG! FR kinase! inhibitor, blocks the formation of new blood vessels in tumors. Oral administration of TLK60596 to animal models of human colon cancer reduced tumor growth.