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Archive for the ‘Drug Discovery Chemistry’ Category

Advancing Drug Development – 12/12/2019, 8:30AM – 8:30PM at The University of Massachusetts Club, One Beacon Street, Boston, MA

Posted in Drug Delivery Platform Technology, Drug Development Process, Drug Discovery Chemistry, Pharmaceutical Discovery, Pharmaceutical Drug Discovery, Pharmaceutical R&D Informatics, Pharmaceutical R&D Investment, Pharmacogenomics, Rapid automation of plasma protein pools on November 4, 2019| Leave a Comment »

Advancing Drug Development – 12/12/2019, 8:30AM – 8:30PM at The University of Massachusetts Club, One Beacon Street, Boston, MA

 

Reporter: Aviva Lev-Ari, PhD, RN

4th Advancing Drug Development Forum – Making the Impossible Possible – Harnessing Small Molecule Drug Development scheduled to take place December 12th, 2019 at The University of Massachusetts Club, in Boston, Massachusetts from 8:30 AM – 8:30 PM.

http://advdrug.com/agenda/

 

Scientists are more than just chipping away and kicking down the barricades to develop complex small molecule products better and faster.  Successful companies are spending quality time finding novel and clever approaches and powerful technologies to better support their knowledgeable teams.  Often it takes establishing strong partnerships with 1 or more specialized service providers, cleverly combining resources – always striving to raise the bar in order to make life threatening diseases more of a chronic and tolerable disease or eradicated completely.

Hear from key opinion leaders in pharma, biotech, the investment community and innovative service providers on how they are meeting the challenges. Keep in mind, it takes being open-minded, flexible and willing sometimes to redesigning a new formulation that better enhances bioavailability, optimizes drug-delivery profiles, reduces dosing frequency, or improves the patient experience to have the potential to deliver quicker returns on investments than developing a completely new drug.

PROGRAM AGENDA Thursday, December 12, 2019
8:30 AM Registration and Networking Continental Breakfast
9:00 AM Welcome Address and Opening Remarks
Kevin Bittorf, Ph.D., & Shelly Amster
9:15 AM Opening VC Keynote
9:45 AM Bridging the Gap between Experimentation and Implementation
Panel Discussion
10:15 AM Refreshment Break
10:45 AM Cross-Talk Between Clin-Ops and Tech-Ops
Panel Discussion
11:15 AM The Cost of Speed and Value in Drug Development
Panel Discussion
12:00 PM Networking Luncheon
1:00 PM Advances in the Delivery of Therapeutics to the Brain
Academic Keynote
Mansoor M. Amiji, Ph.D., University Distinguished Professor, Professor of Pharmaceutical Sciences & Professor of Chemical Engineering, Northeastern University
1:30 PM Advancing Drug Delivery and Controlled Release
Panel Discussion
2:00 PM Drowning in DATA
2:30 PM Disruptive AI Technologies Improving Drug Development
3:00 PM Refreshment Break
3:30 PM Small Specialty VS Full Service – What Makes Sense for US?
Panel Discussion
4:00 PM Fireside Chat
Michael Bonney, Executive Chair, Kaleido Biosciences
Heinrich Schlieker, Ph.D., SVP Technical Operations, Sage Therapeutics
5:00 PM – 8:00 PM Networking Social
Direct electronic communication with Shelly Amster

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Drug Repurposing Hub Library @broadinstitute @MIT @Harvard

Posted in Drug Development Process, Drug Discovery Chemistry, drug repurposing, Pharmaceutical Drug Discovery on February 14, 2019| Leave a Comment »

Drug Repurposing Hub Library @broadinstitute @MIT @Harvard

Reporter: Aviva Lev-Ari, PhD, RN and Irina Robu, PhD

CLAIMER: most valuable information for Drug Repurposing is found in the following LPBI Group three Intellectual Property Asset Classes

Our intellectual property “IP” consists of three classes of assets as described in detail within live links in the below, listed article.

  • First, the Journal, an ongoing journal of curated, current biomedical research;
  • Second, the books, a collection of 16 volumes of e-books available via Amazon in five specialties of Medicine: Cardiovascular, Genomics, Cancer, Immunology and Precision Medicine; and
  • Third, real-time curation of biotech and medical conferences yielding an e-Proceedings at the end of the conference in One-click operation.

These three IP asset classes are described in details with live links in

eScientific Publishing a Case in Point: Evolution of Platform Architecture Methodologies and of Intellectual Property Development (Content Creation by Curation) Business Model

https://pharmaceuticalintelligence.com/2019/02/04/escientific-publishing-a-case-in-point-evolution-of-platform-architecture-methodologies-and-of-intellectual-property-development-content-creation-by-curation-business-model/

 

The Drug Repurposing Hub: A next-generation drug library and information resource

M Corsello, Steven & A Bittker, Joshua & Liu, Zihan & Gould, Joshua & McCarren, Patrick & E Hirschman, Jodi & E Johnston, Stephen & Vrcic, Anita & Wong, Bang & Khan, Mariya & Asiedu, Jacob & Narayan, Rajiv & C Mader, Christopher & Subramanian, Aravind & R Golub, Todd. (2017). The Drug Repurposing Hub: A next-generation drug library and information resource. Nature Medicine. 23. 405-408. 10.1038/nm.4306.

… Published on January 3, 2018 as DOI: 10.1124/mol.117. Downloaded from additional source, we used data from the Broad repurposing hub ( Corsello et al, 2017), which employed high throughput screening to characterize drug-target interactions of approved drugs, natural products and nutraceuticals along with other entities. Our analysis yielded a list of currently ‘druggable’ GPCRs and the drugs that target them. …
… Using a range of ~500 (conservative estimate) to ~700 GPCR-targeted drugs, we estimate that between ~25% and ~36% of approved drugs target GPCRs, with the upper figure the more likely. As additional studies such as the Broad repurposing initiative ( Corsello et al, 2017) characterize GPCR-drug interactions in more detail, we anticipate a growth in this number, as secondary interactions between GPCRs and drugs are defined ( Allen and Roth, 2011). IUPHAR lists more druggable GPCRs than CHEMBL or DRUGBANK but has the smallest number of GPCR-related and overall approved drugs ( Figure 3C shows the number of GPCR-targeted drugs based on target-ligand interactions annotated by either IUPHAR or CHEMBL; of the 476 such drugs listed in one or both sources, only a portion are common to both (50%). …

 

Drug Repurposing Hub Library @broadinstitute  @MIT @Harvard

To date there has not been a systematic effort to identify such opportunities, limited in part by the lack of a comprehensive library of clinical compounds suitable for testing. To address this challenge, we hand-curated a collection of 4,707 compounds, experimentally confirmed their identity, and annotated them with literature-reported targets. The collection includes 3,422 drugs that are marketed around the world or that have been tested in human clinical trials. Compounds were obtained from more than 50 chemical vendors and the purity of each sample was established. We have thus established a blueprint for others to easily assemble such a repurposing library, and we have created an online Drug Repurposing Hub (www.broadinstitute.org/repurposing) containing detailed annotation for each of the compounds.

SOURCE

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5568558/

. Author manuscript; available in PMC 2017 Aug 23.
Published in final edited form as:
PMCID: PMC5568558
NIHMSID: NIHMS893143
PMID: 28388612

The Drug Repurposing Hub: a next-generation drug library and information resource

Steven M. Corsello,1,2,3 Joshua A. Bittker,1 Zihan Liu,1 Joshua Gould,1Patrick McCarren,1 Jodi E. Hirschman,1 Stephen E. Johnston,1 Anita Vrcic,1Bang Wong,1 Mariya Khan,1 Jacob Asiedu,1 Rajiv Narayan,1Christopher C. Mader,1 Aravind Subramanian,1 and Todd R. Golub1,3,4,5,*
SOURCE
Other Resources

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Record Innovations in Drug Discovery by Koch Institute @MIT Members and Affiliates

Posted in BioTechnology - Venture Creation, BioTechnology - Venture Creation, Venture Capital, CANCER BIOLOGY & Innovations in Cancer Therapy, DNA repair, Drug Delivery Platform Technology, Drug Development Process, Drug Discovery Chemistry, MHC Repertoires for Antigen Prediction, Personalized and Precision Medicine & Genomic Research, Pharmaceutical Discovery on February 6, 2019| Leave a Comment »

Record Innovations in Drug Discovery by Koch Institute @MIT Members and Affiliates

Reporter: Aviva Lev-Ari, PhD, RN

 

 

In Good Company

Trovagene announced a new patent for the use of the drug onvansertib in combination with other anti-androgen drugs for the treatment of prostate cancer. Last fall, Trovagene secured exclusive rights to develop combination therapies and clinical biomarkers for prostate cancer based in part on Bridge Project-funded research. Read more.

Lyndra Therapeutics, co-founded by KI member Bob Langer, raised $55 million in its Series B round, with new investors including the Bill and Melinda Gates Foundation and Gilead Sciences. Phase 2 trials for its ultra long-acting drug delivery capsule are expected to begin next year. Read more.

Dragonfly Therapeutics, co-founded by KI director Tyler Jacks, has committed $10 million to launch the first clinical studies of its TriNKETs (Tri-specific, NK cell Engager Therapies) platform for both solid tumor and hematological cancers. Read more.

Following its record-breaking IPO, Moderna Therapeutics (co-founded by KI member Bob Langer) published preclinical data in Science Translational Medicine demonstrating the promise of its mRNA-2752 program in several cancers. Read more.

Dewpoint Therapeutics launched with a $60 million Series A, aims to translate recent insights into biomolecular condensates from the laboratory of co-founder and KI member Rick Young to drug discovery. Read more.

KI member Bob Langer and collaborator Omid Farokhzad co-founded Seer— combining nanotechnology, protein chemistry, and machine learning—to develop liquid biopsy tests for the early detection of cancer and other diseases. Read more.

Epizyme, co-founded by KI member Bob Horvitz, is submitting a New Drug Application to gain accelerated approval of tazemetostat for patients with relapsed or refractory follicular lymphoma. Read more.

Ribon Therapeutics, founded by former KI member Paul Chang, launched with $65 million in a Series B funding round with Victoria Richon, a veteran of Sanofi and Epizyme, at the helm. Ribon focuses on developing PARP7 inhibitors for cancer treatment. Read more.

SOURCE

From: MIT Koch Institute for Integrative Cancer Research <cancersolutions=mit.edu@cmail19.com> on behalf of MIT Koch Institute for Integrative Cancer Research <cancersolutions@mit.edu>

Reply-To: <ki-communications@mit.edu>

Date: Wednesday, February 6, 2019 at 3:15 PM

To: Aviva Lev-Ari <AvivaLev-Ari@alum.berkeley.edu>

Subject: Lung Microbiome Corrupted in Cancer; Angelika Amon wins 2019 Vilcek Award; Lunch Lines of Inquiry

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In 2018 Cardiovascular PharmacoTherapy Market: Anti-thrombotic Drug Class Segment will continue to bring in the biggest profit and dominate production

Posted in Drug Development Process, Drug Discovery Chemistry, Pharmaceutical Analytics, Pharmaceutical Drug Discovery, Pharmaceutical Industry Competitive Intelligence, Pharmaceutical R&D Investment, Value-based Drug Pricing on February 27, 2018| Leave a Comment »

In 2018 Cardiovascular PharmacoTherapy Market: Anti-thrombotic Drug Class Segment will continue to bring in the biggest profit and dominate production

Reporter: Aviva Lev-Ari, PhD, RN

Who were the top players in cardiovascular disease in 2017?

By GlobalData Healthcare

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CHI’s Discovery on Target, Sheraton Boston, Sept. 25-28, 2018

Posted in Conference Coverage with Social Media, Drug Delivery Platform Technology, Drug Development Process, Drug Discovery Chemistry, Personalized and Precision Medicine & Genomic Research, Pharmaceutical Analytics, Pharmaceutical Discovery, Pharmaceutical Drug Discovery, Pharmaceutical Industry Competitive Intelligence, Pharmaceutical R&D Informatics, Pharmaceutical R&D Investment, Pharmacodynamics and Pharmacokinetics, Pharmacogenomics, Pharmacologic toxicities on February 21, 2018| Leave a Comment »

CHI’s Discovery on Target, Sheraton Boston, Sept. 25-28, 2018

Reporter: Aviva Lev-Ari, PhD, RN

 

ANNOUNCEMENT

Leaders in Pharmaceutical Business Intelligence (LPBI) Group is a selected CHI Business Partner for Media Communication for this event as well a provider of REAL TIME PRESS COVERAGE for this cardinal event in the domain of  Drug Discovery and Drug Delivery.

Dr. Aviva Lev-Ari, PhD, RN, Editor-in-Chief, PharmaceuticalIntelligence.com  will be in attendance covering this event for the Press using Social Media via 12 Channels

LOGO of LPBI Group

Follow us on ALL our Media Communication Channels:

Channels for e-Marketing of Biotech Conferences

  • Our Journal has 1,373,977  eReaders on 1/29/2018, for All Time and 7,283 Scientific Comments

http://pharmaceuticalintelligence.com

  • Aviva’s – +6,430 BIOTECH Followers on LinkedIn

http://www.linkedin.com/in/avivalevari

  • Aviva is a Member of +60 LinkedIn Groups in Biotech related fields

https://www.linkedin.com/groups/my-groups

  • LPBI Group’s FaceBook Page

http://www.facebook.com/LeadersInPharmaceuticalBusinessIntelligence

  • LPBI Group’s Twitter Account

http://twitter.com/pharma_BI

  • LPBI Group’s Company’s Page on LinkedIn

https://www.linkedin.com/company/9325543?trk=tyah&trkInfo=clickedVertical%3Acompany%2CclickedEntityId%3A9325543%2Cidx%3A1-1-1%2CtarId%3A1439226813927%2Ctas%3ALeaders%20in%20Pharmaceutica

 

 

For UPDATES on this Cardinal Conference and for REGISTRATION, go to 

http://www.discoveryontarget.com/?utm_source=partner

 

For PROGRAMS, go to 

http://www.discoveryontarget.com/programs

September 26-27

September 27-28

September 26-27

September 27-28

September 26-27

September 27-28

September 26-27

September 27-28

September 25

What is the Role of the Editor-in-Chief at PharmaceuticalIntelligence.com 

Editor-in-Chief’s Roles and Accomplishments

1        Curation Methodology Development

Leadership we provide on curation of scientific findings in the eScientific publishing for Medical Education contents.

In Section 1, the Leadership we provide on curation of scientific findings in the eScientific publishing for Medical Education contents is demonstrated by a subset of several outstanding curations with high electronic Viewer volume. Each article included presents unique content contribution to Medical Clinical Education.

·       These articles are extracted from the list of all Journal articles with >1,000 eReaders, 4/28/2012 to 1/29/2018.

Article Title,         # of electronic Viewers,         Author(s) Name

Is the Warburg Effect the Cause or the Effect of Cancer: A 21st Century View?                      16,114 Larry H. Bernstein, MD, FCAP

Do Novel Anticoagulants Affect the PT/INR? The Cases of XARELTO (rivaroxaban) and PRADAXA (dabigatran) 11,606 Vivek Lal, MBBS, MD, FCIR,

Justin D. Pearlman, MD, PhD, FACC and

Aviva Lev-Ari, PhD, RN
Clinical Indications for Use of Inhaled Nitric Oxide (iNO) in the Adult Patient Market: Clinical Outcomes after Use, Therapy Demand and Cost of Care

 

  5,865 Aviva Lev-Ari, PhD, RN
Peroxisome proliferator-activated receptor (PPAR-gamma) Receptors Activation: PPARγ transrepression for Angiogenesis in Cardiovascular Disease and PPARγ transactivation for Treatment of Diabetes                  1,919 Aviva Lev-Ari, PhD, RN  

 

Bystolic’s generic Nebivolol – Positive Effect on circulating Endothelial Progenitor Cells Endogenous Augmentation  1,059 Aviva Lev-Ari, PhD, RN

 

Triple Antihypertensive Combination Therapy Significantly Lowers Blood Pressure in Hard-to-Treat Patients with Hypertension and Diabetes  1,339 Aviva Lev-Ari, PhD, RN

 

Clinical Trials Results for Endothelin System: Pathophysiological role in Chronic Heart Failure, Acute Coronary Syndromes and MI – Marker of Disease Severity or Genetic Determination?  1,472 Aviva Lev-Ari, PhD, RN
Treatment of Refractory Hypertension via Percutaneous Renal Denervation  1,085 Aviva Lev-Ari, PhD, RN

2        Content Creation and Key Opinion Leader (KOL) Recognition

2.1     Volume of Articles in the Journal and in the 16 Volume-BioMed e-Series

Select

Aviva Lev-Ari, PhD, RN 2012pharmaceutical

3,064 Articles

·       All  (5,288)

 avivalev-ari@alum.berkeley.edu Administrator 3064

2.1     Volume of Articles in the Journal and in the 16 Volume-BioMed e-Series

1.   Volume of Articles in the Journal since Journal inception on 4/28/2012:

·       Total articles by ALL authors in Journal Archive on 1/29/2018 = 5,288

·       ALL articles/posts Authored, Curated, Reported by Aviva Lev-Ari, PhD, RN = 3,064

2.   Volume of Articles in the 16 Volume-BioMed e-Series

·    Editorial & Publication of Articles in e-Books by Leaders in Pharmaceutical Business Intelligence: Contributions of Aviva Lev-Ari, PhD, RN

https://pharmaceuticalintelligence.com/2014/10/16/editorial-publication-of-articles-in-e-books-by-leaders-in-pharmaceutical-business-intelligence-contributions-of-aviva-lev-ari-phd-rn/

·       LPBI Group’s Founder: Biography and Bibliographies – Aviva Lev-Ari, PhD, RN

https://pharmaceuticalintelligence.com/founder/

 

2.2     Digital Presence measured by eViews: Clicks on article by Author Name

Top Authors for all days ending 2018-01-29 (Summarized)

All Time

Author Name electronic Views
Aviva Lev-Ari, PhD, RN [2012pharmaceutical]

352,153

 

Our TEAM 5,934  

 
Founder 3,257
BioMed e-Series 3,140

 

Journal PharmaceuticalIntelligence.com 2,214
About 2,054
  VISION   2,803  

 


LPBI Group		             1,201

2.3     Digital KOL Parameters

Key Opinion Leader (KOL) – Aviva Lev-Ari, PhD, RN, as Evidenced by

https://pharmaceuticalintelligence.com/2016/07/21/key-opinion-leader-kol-aviva-lev-ari-phd-rn-as-evidenced-by/

 

3        Team building: Editors and Expert, Authors, Writers

Our Team

Selection of Journal’s Chief Scientific Officer (CSO) and BioMed e-Series Content Consultant (CC): Series B, C, D, E

L.H. Bernstein, MD, FCAP

Editorial & Publication of Articles in e-Books by  Leaders in Pharmaceutical Business Intelligence:  Contributions of Larry H Bernstein, MD, FCAP

https://pharmaceuticalintelligence.com/2014/10/16/editorial-publication-of-articles-in-e-books-by-leaders-in-pharmaceutical-business-intelligence-contributions-of-larry-h-bernstein-md-fcap/

4        Book Title Generation and Cover Page Design

As BioMed e-Series Editor–in-Chief, I was responsible for the following functions of product design and product launch

·       16 Title creations for e-Books

·       Designed 16 Cover Pages for a 16-Volume e-Books e-Series in BioMed

·       Designed Series A eTOCs and approved of all 16 electronic Table of Contents (eTOCs), working in tandem with all the Editors of each volume and all the Author contributors of article contents in the Journal.

·       Commissioned Articles by Authors/Curators per Author’s expertise on a daily basis

 

Below, see Volume Titles and Cover Pages:

13 LIVE results for Kindle Store: “Aviva Lev-Ari”

 

 

The VOICES of Patients, Hospitals CEOs, Health Care Providers, Caregivers and Families: Personal Experience with Critical Care and Invasive Medical Procedures … E: Patient-Centered Medicine Book 1)

Oct 16, 2017 | Kindle eBook

by Larry H. Bernstein and Aviva Lev-Ari

$0.00

Subscribers read for free.

Read for Free

$49.00$ 49 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Cancer Therapies: Metabolic, Genomics, Interventional, Immunotherapy and Nanotechnology in Therapy Delivery (Series C Book 2)

May 13, 2017 | Kindle eBook

by Larry H. Bernstein and Demet Sag

$0.00

Subscribers read for free.

Read for Free

$100.00$ 100 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

The Immune System, Stress Signaling, Infectious Diseases and Therapeutic Implications: VOLUME 2: Infectious Diseases and Therapeutics and VOLUME 3: The … (Series D: BioMedicine & Immunology)

Sep 4, 2017 | Kindle eBook

by Larry H. Bernstein and Aviva Lev-Ari

$0.00

Subscribers read for free.

Read for Free

$115.00$ 115 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Perspectives on Nitric Oxide in Disease Mechanisms (Biomed e-Books Book 1)

Jun 20, 2013 | Kindle eBook

by Margaret Baker PhD and Tilda Barliya PhD

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

5 out of 5 stars 6

Sold by: Amazon Digital Services LLC

Medical Scientific Discoveries for the 21st Century & Interviews with Scientific Leaders (Series E)

Dec 9, 2017 | Kindle eBook

by Larry H. Bernstein and Aviva Lev-Ari

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Etiologies of Cardiovascular Diseases: Epigenetics, Genetics and Genomics

Nov 28, 2015 | Kindle eBook

by Justin D. Pearlman MD ME PhD MA FACC and Stephen J. Williams PhD

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Cardiovascular Original Research: Cases in Methodology Design for Content Co-Curation: The Art of Scientific & Medical Curation

Nov 29, 2015 | Kindle eBook

by Larry H. Bernstein MD FCAP and Aviva Lev-Ari PhD RN

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Medical 3D BioPrinting – The Revolution in Medicine Technologies for Patient-centered Medicine: From R&D in Biologics to New Medical Devices (Series E: Patient-Centered Medicine Book 4)

Dec 30, 2017 | Kindle eBook

by Larry H. Bernstein and Irina Robu

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Metabolic Genomics & Pharmaceutics (BioMedicine – Metabolomics, Immunology, Infectious Diseases Book 1)

Jul 21, 2015 | Kindle eBook

by Larry H. Bernstein MD FCAP and Prabodah Kandala PhD

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

5 out of 5 stars 1

Sold by: Amazon Digital Services LLC

Cancer Biology and Genomics for Disease Diagnosis (Series C: e-Books on Cancer & Oncology Book 1)

Aug 10, 2015 | Kindle eBook

by Larry H Bernstein MD FCAP and Prabodh Kumar Kandala PhD

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Genomics Orientations for Personalized Medicine (Frontiers in Genomics Research Book 1)

Nov 22, 2015 | Kindle eBook

by Sudipta Saha PhD and Ritu Saxena PhD

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Milestones in Physiology: Discoveries in Medicine, Genomics and Therapeutics (Series E: Patient-Centered Medicine Book 3)

Dec 26, 2015 | Kindle eBook

by Larry H. Bernstein MD FACP and Aviva Lev-Ari PhD RN

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

Regenerative and Translational Medicine: The Therapeutic Promise for Cardiovascular Diseases

Dec 26, 2015 | Kindle eBook

by Justin D. Pearlman MD ME PhD MA FACC and Ritu Saxena PhD

$0.00

Subscribers read for free.

Read for Free

$75.00$ 75 00 to buyKindle Edition

Get it TODAY, Jan 29

Sold by: Amazon Digital Services LLC

5        Style Setting: Instruction manuals for Journal, Articles, Books

As BioMed e-Series Editor–in-Chief, Aviva Lev-Ari, PhD, RN was responsible for

·       All the documentation (Instruction manuals) on Style setting, and for

·       Training all team members

·       Journal Articles Format

·       Journal Comment Exchange Format

·       e-Books Production Process:

1.               Volume creation from Journal’s Article Archive,

2.               Format Translation from HTML to .mobi for Kindle devices,

3.               Proof reading process,

4.               Title release,

5.               Book electronic Upload to Amazon.com Cloud.

6.               Connection of all articles and e-Books to Social Media, Ping back generation by mentioning other related articles published in the Journal

 

Lastly, 6, below

6        Annual Workflow Management of Multiple eTOCs – Multi-year Book Publishing Scheduling Plan, 2013 – Present

 

Title Date of Publication Number of Pages
Perspectives on Nitric Oxide in Disease Mechanisms 6/21/2013 895
Cardiovascular Original Research: Cases in Methodology Design for Content Co-Curation 11/30/2015 11039 KB
Etiologies of Cardiovascular Diseases: Epigenetics, Genetics and Genomics 11/29/2015 12333 KB
Regenerative and Translational Medicine: The Therapeutics Promise for Cardiovascular Diseases 12/26/2015 11668 KB
Genomics Orientations for Personalized Medicine 11/23/2015 11724 KB
Cancer Biology & Genomics for Disease Diagnosis 8/11/2015 13744 KB
Cancer Therapies: Metabolic, Genomics, Interventional, Immunotherapy and Nanotechnology in Therapy Delivery 5/18/2017 5408 pages
Metabolic Genomics and Pharmaceutics 7/21/2015 13927 KB
The Immune System, Stress    Signaling, Infectious Diseases and Therapeutic Implications 9/4/2017 3747 pages
The VOICES of Patients, Hospitals CEOs, Health Care Providers, Caregivers and Families: Personal Experience with Critical Care and Invasive Medical Procedures 10/16/2017 826 pages
Medical Scientific Discoveries for the 21st Century & Interviews with Scientific Leaders 12/9/2017 2862 pages
Milestones in Physiology: Discoveries in Medicine, Genomics and Therapeutics 12/27/2015 11125 KB
Medical 3D BioPrinting – The Revolution in Medicine, Technologies for Patient-centered Medicine: From R&D in Biologics to New Medical Devices 12/30/2017 1005 pages
Pharmacological Agents in Treatment of Cardiovascular Disease

 

 Work-in-Progress, Expected Publishing date in 2018 ???
Interventional Cardiology and Cardiac Surgery for Disease Diagnosis and Guidance of Treatment Work-in-Progress, Expected Publishing date in 2018

 

 ???

 

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Novartis’ Kymriah (tisagenlecleucel), FDA approved genetically engineered immune cells, would charge $475,000 per patient, will use Programs that Payers will pay only for Responding Patients 

Posted in Drug Delivery Platform Technology, Drug Development Process, Drug Discovery Chemistry, Patient-centered Medicine, Personalized and Precision Medicine & Genomic Research, Pharmaceutical Discovery, Pharmaceutical Drug Discovery, Pharmaceutical Industry Competitive Intelligence, Pharmaceutical R&D Informatics, Pharmaceutical R&D Investment, Pharmacogenomics, Value-based Drug Pricing on August 31, 2017| Leave a Comment »

Novartis’ Kymriah (tisagenlecleucel), FDA approved genetically engineered immune cells, would charge $475,000 per patient, will use Programs that Payers will pay only for Responding Patients

Curator: Aviva Lev-Ari, PhD, RN

 

UPDATED on 9/1/2017:

This Pioneering $475,000 Cancer Drug Comes With A Money-Back Guarantee

Novartis defends the eye-popping price of its pioneering gene therapy with arguments about its $1 billion expenditure—and novel “value-based” pricing.

https://www.fastcompany.com/40461214/how-novartis-is-defending-the-record-475000-price-of-its-pioneering-gene-therapy-cancer-drug-car-t-kymriah

 

On 8/30/2017 we wrote:

FDA has approved the world’s first CAR-T therapy, Novartis for Kymriah (tisagenlecleucel) and Gilead’s $12 billion buy of KitePharma, no approved drug and Canakinumab for Lung Cancer (may be?)

Curator: Aviva Lev-Ari, PhD, RN

https://pharmaceuticalintelligence.com/2017/08/30/fda-has-approved-the-worlds-first-car-t-therapy-novartis-for-kymriah-tisagenlecleucel-and-gileads-12-billion-buy-of-kite-pharma-no-approved-drug-and-canakinumab-for-lung-cancer-may-be/

 

The Price for the Treatment was published on 8/31/2017, a Value-based Pricing Payment Model of a $475,000 per patient charge for the responding patients after ONE month of treatment. Novartis says it takes an average of 22 days to create the therapy, from the time a patient’s cells are removed to when they are infused back into the patient. Kymriah will initially be available at 20 U.S. hospitals within a month, Novartis says. Eventually, 32 total sites will offer the therapy. 

CAR-T gained national attention three years ago when Carl June, a researcher at the University of Pennsylvania, used to put a young girl’s acute lymphoblastic leukemia. Genetically altering the girl’s immune cells had made her deathly ill, but June had used a Roche drug, Actemra, to treat the side effects. She lived, and the results were published in The New England Journal of Medicine. Novartis bought the rights to the Penn treatment for just $20 million up front.

Pharma Buying the right to use from an Academic Institution is a known route to leap frog the R&D lengthy process of Drug discovery.

“I’ve told the team that resources are not an issue. Speed is the issue,” says Novartis’ Chief Executive Joseph Jimenez, told Forbes in a cover story about the work then.

The FDA calls this CAR-T therapy treatment, made by Novartis, the “first gene therapy” in the U.S. The therapy is designed to treat an often-lethal type of blood and bone marrow cancer that affects children and young adults. The FDA defines gene therapy as a medicine that “introduces genetic material into a person’s DNA to replace faulty or missing genetic material” to treat a disease or medical condition. This is the first such therapy to be available in the U.S., according to the FDA.

Two gene therapies for rare, inherited diseases have already been approved in Europe.

To further evaluate the long-term safety, Novartis is also required to conduct a post-marketing observational study involving patients treated with Kymriah.

The FDA granted Kymriah Priority Review and Breakthrough Therapy designations. The Kymriah application was reviewed using a coordinated, cross-agency approach. The clinical review was coordinated by the FDA’s Oncology Center of Excellence, while CBER conducted all other aspects of review and made the final product approval determination.

The FDA granted approval of Kymriah to Novartis Pharmaceuticals Corp. The FDA granted the expanded approval of Actemra to Genentech Inc.

FDA commissioner Scott Gottlieb in a statement.

“We’re entering a new frontier in medical innovation with the ability to reprogram a patient’s own cells to attack a deadly cancer,” 

“Kymriah is a first-of-its-kind treatment approach that fills an important unmet need for children and young adults with this serious disease,” said Peter Marks, M.D., Ph.D., director of the FDA’s Center for Biologics Evaluation and Research (CBER). “Not only does Kymriah provide these patients with a new treatment option where very limited options existed, but a treatment option that has shown promising remission and survival rates in clinical trials.”

https://www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm574058.htm

The Protocol

A patient’s T cells are extracted and cryogenically frozen so that they can be transported to Novartis’s manufacturing center in New Jersey. There, the cells are genetically altered to have a new gene that codes for a protein—called a chimeric antigen receptor, or CAR. This protein directs the T cells to target and kill leukemia cells with a specific antigen on their surface. The genetically modified cells are then infused back into the patient.

In a clinical trial of 63 children and young adults with a type of acute lymphoblastic leukemia, 83 percent of patients that received the CAR-T therapy had their cancers go into remission within three months. At six months, 89 percent of patients who received the therapy were still living, and at 12 months, 79 percent had survived.

https://www.technologyreview.com/s/608771/the-fda-has-approved-the-first-gene-therapy-for-cancer/?utm_campaign=add_this&utm_source=email&utm_medium=post

CAR-T Therapies: Product/Molecules/MOA under Development:

  • Similar CAR-T treatments were being developed at other institutions including
  • Memorial Sloan-Kettering Cancer Center,
  • Seattle Children’s Hospital, and
  • The National Cancer Institute.
  • The Memorial and Seattle work was spun off into a startup called Juno Therapeutics, which has fallen behind. Juno Therapeutics ended a CAR-T study earlier this year after patients died from cerebral edema, or swelling in the brain.
  • The NCI work became the basis for the product being developed by Kite Pharma. Kite Pharma, which is awaiting FDA approval for its CAR-T therapy to treat a form of blood cancer in adults, was this week bought out by Gilead in a deal worth $11.9 billion.

On Cambridge Healthtech Institute’s 4th Annual Adoptive T Cell Therapy, Delivering CAR, TCR, and TIL from Research to Reality, August 29 – 30, 2017 | Sheraton Boston | Boston, MA

TUESDAY, AUGUST 29 – I covered in Real Time the talk on Juno Therapeutics: Building Better T Cell Therapies: The Power of Molecular Profiling by Mark Bonyhadi, Ph.D., Head, Research and Academic Affairs, Juno Therapeutics

https://pharmaceuticalintelligence.com/2017/08/29/live-829-chis-oncolytic-virus-immunotherapy-and-adoptive-cell-therapy-august-28-29-2017-sheraton-boston-hotel-boston-ma/

 

Precision Medicine is Costly and not a Rapid manufacturing process

All of the CAR-T products are expensive to make, and must be manufactured on an individual basis for each new patient from the patient’s own T-cells, a type of white blood cells, a process that takes weeks.

  • How quickly companies can speed up manufacturing.
  • Kymriah will be manufactured at a facility in Morris Plains, N.J.
  • CAR-T technology, which has so far been used only in patients with blood cancers that have not been cured by other treatments, can be used earlier in the disease or for solid tumors: Breast, Prostate, Melanomas.

https://www.forbes.com/sites/matthewherper/2017/08/30/fda-approves-novartis-treatment-that-alters-patients-cells-to-fight-cancer/#2aecb25b4400

Prediction How Patients will Far Well – Researchers use a big-data approach to find links between different genes and patient survival.

https://www.technologyreview.com/s/608666/a-cancer-atlas-to-predict-how-patients-will-fare/?set=

A pathology atlas of the human cancer transcriptome

+ See all authors and affiliations

Science  18 Aug 2017:
Vol. 357, Issue 6352, eaan2507
DOI: 10.1126/science.aan2507

Modeling the cancer transcriptome

Recent initiatives such as The Cancer Genome Atlas have mapped the genome-wide effect of individual genes on tumor growth. By unraveling genomic alterations in tumors, molecular subtypes of cancers have been identified, which is improving patient diagnostics and treatment. Uhlen et al. developed a computer-based modeling approach to examine different cancer types in nearly 8000 patients. They provide an open-access resource for exploring how the expression of specific genes influences patient survival in 17 different types of cancer. More than 900,000 patient survival profiles are available, including for tumors of colon, prostate, lung, and breast origin. This interactive data set can also be used to generate personalized patient models to predict how metabolic changes can influence tumor growth.

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FDA has approved the world’s first CAR-T therapy, Novartis for Kymriah (tisagenlecleucel) and Gilead’s $12 billion buy of Kite Pharma, no approved drug and Canakinumab for Lung Cancer (may be?)

Posted in CANCER BIOLOGY & Innovations in Cancer Therapy, CAR-T, Drug Development Process, Drug Discovery Chemistry, Immuno-Oncology & Genomics, Immunotherapy, Personalized and Precision Medicine & Genomic Research, Pharmaceutical Analytics, Pharmaceutical Discovery, Pharmaceutical Drug Discovery, Pharmacogenomics on August 30, 2017| Leave a Comment »

FDA has approved the world’s first CAR-T therapy, Novartis for Kymriah (tisagenlecleucel) and Gilead’s $12 billion buy of Kite Pharma, no approved drug and Canakinumab for Lung Cancer (may be?)

Curator: Aviva Lev-Ari, PhD, RN

 

UPDATED on 12/10/2019

For an ‘acquisitive’ Gilead, 2020 will be key test for CAR-T plans

Success for Kite, which O’Day made an independent unit, is critical for Gilead. Not only did the California biotech invest a large sum to buy the CAR-T specialist, it’s the most notable bet made on a future outside of drugs for HIV and hepatitis C.

Sentiment on Wall Street has begun to turn against the wisdom of Gilead’s choice, doubting CAR-T will live up to the promise envisioned by O’Day’s predecessors. One analyst went so far as to include the acquisition among the five most value-destroying biopharma deals of the past decade.

Commercially, sales of Yescarta have grown to $334 million through the first nine months of the year, up from $183 million during the same period last year. Still, marketing CAR-T has proved challenging, with hurdles in reimbursement and in-hospital administration particularly acute.

The coming year could prove consequential in shifting Kite’s trajectory higher.

Within the next few weeks, Gilead will ask regulators to approve its second CAR-T cell therapy, a variation of its currently cleared leukemia and lymphoma treatment Yescarta that’s manufactured differently.

new site in Europe coming online next year could substantially cut times down for Yescarta delivery there, Shaw said. (Globally, Novartis appears better positioned, with sites in Switzerland and France as well as partnerships in China, Japan and Australia.)

Automation of what’s now a mostly manual process will play an important role in CAR-T’s future too, according to Shaw.

“If we get our autologous cell therapy automated very well, you could imagine one day it could be at point of care,” she said. “We don’t want to be disrupted by someone else doing that.”

Disruption could also come in the form of allogeneic cell therapies, which are constructed using donor T cells rather than autologous treatments that use a patient’s own. Numerous clinical hurdles have made that approach more difficult but companies like Allogene — founded by former Kite executives — are moving ahead.

SOURCE

https://www.biopharmadive.com/news/gilead-kite-car-t-christi-shaw-dealmaking/568767/

 

UPDATED on 5/3/2019

Gilead Sciences tapped new CEO Daniel O’Day in part because of his cancer expertise. But he’s not planning to lead the company’s oncology ramp-up alone.

The Roche veteran intends to bring on a CEO for Gilead’s Kite unit, responsible for key CAR-T drug Yescarta. The new chief will report to O’Day and operate Kite as a separate business unit, JPMorgan analyst Cory Kasimov wrote in a Thursday note to clients.

RELATED: Gilead, looking for cancer sales, swipes Roche pharma chief Daniel O’Day for CEO post

Gilead acquired Kite in 2017 for $12 billion as its hepatitis C revenues, once its bread and butter, crashed. But so far, both Yescarta and Novartis’ rival CAR-T player, Kymriah, have struggled, thanks to a mix of reimbursement and manufacturing challenges.

Kite underperformed expectations once again in the first quarter, with Yescarta’s $96 million in sales for the period checking in below Wall Street consensus of $105 million.

O’Day doesn’t expect to see that trend continue, though. On Gilead’s earnings conference call, he “proclaimed his confidence in cell therapy, noting that it was a critical element of the company’s long term strategy,” Kasimov wrote.

Getting Gilead’s commercial business in order is just one of O’Days three main priorities as he settles into the CEO role, though. After taking the reins March 1, he decided to zero in on strengthening Gilead’s pipeline, in part through M&A. And he’ll also be making organizational tweaks to “ensure the right people are in the right place,” as Kasimov put it.

Gilead is “continuing to scan the entirety” of the M&A landscape and “acknowledges they will continue to ‘look at late stage pipeline,’” while keeping an eye on the company’s areas of expertise—oncology, HIV and hepatitis B and nonalcoholic steatohepatitis, Jefferies analyst Michael Yee wrote to his own clients. And the Big Biotech will be “accelerating internal” candidates in addition to adding bolt-on buys.

RELATED: Gilead executives predict patience—and some deal scouting—from new CEO Daniel O’Day

Unsurprisingly, analysts trained their attention on the call to O’Day’s strategy comments, and “there were literally minimal to no questions about financials,” Yee noted. But that doesn’t mean Gilead turned in a bad quarter. On the contrary, the first quarter was “fairly clean,” he wrote, with revenues of $5.28 billion meeting expectations and earnings per share of $1.76 topping forecasts by 15 cents.

New HIV hotshot Biktarvy stole the show on the revenue side, blowing the $648 million consensus prediction out of the water with $793 million in quarterly sales.

In the quarter, “about 80% of Biktarvy revenue came from switches with 25% from dolutegravir-containing regimens in the U.S.,” Kasimov wrote, referencing key combinations from Gilead’s HIV archrival, GlaxoSmithKline.

SOURCE

 

UPDATED on 9/7/2017

Here’s the inside account of Gilead’s 11-week sprint to its $12B Kite buyout – ENDPOINTS NEWS

UPDATED on 8/31/2017

Gilead-Kite: A New Transformative Deal For Biotech, AUG 30, 2017

Gilead has made a big bet on new technology in Kite’s immunotherapy platforms and has reduced the number of credible large players in the space.

With a reputation for intense diligence and dynamism in its business development efforts, Gilead’s management team will only bolster the immunotherapy field as it prepares to face off with Novartis, its immediate competitor, and enters squarely in the province of Merck and Bristol Myers Squibb, two of the leaders in immuno-oncology.

Gilead has reinvented the transformative transaction for the sector.

https://www.forbes.com/sites/stephenbrozak/2017/08/30/gilead-kite-a-new-transformative-deal-and-maybe-the-new-future-of-healthcare-deals/#fc64fca65d49

 

I attended this week the Cambridge Healthtech Institute’s 4th Annual

Adoptive T Cell Therapy

Delivering CAR, TCR, and TIL from Research to Reality
August 29 – 30, 2017 | Sheraton Boston | Boston, MA

 

The following talks on 8/29/2017 presented the frontier of CAR-T Therapies and Technologies from lab to bed side:

  • Building Better T Cell Therapies: The Power of Molecular Profiling

Mark Bonyhadi, Ph.D., Head, Research and Academic Affairs, Juno Therapeutics

  • Tricked-Out Cars, the Next Generation of CAR T Cells

Richard Morgan, Ph.D., Vice President, Immunotherapy, Bluebird Bio

  • The Generation of Lentiviral Vector-Modified CAR-T Cells Using an Automated Process

Boro Dropulic, Ph.D., General Manager and CSO, Lentigen Technology, Inc.

I covered this event in Real Time for the Press

LIVE – 8/29 – CHI’s Oncolytic Virus Immunotherapy and ADOPTIVE CELL THERAPY, August 28-29, 2017 Sheraton Boston Hotel | Boston, MA

https://pharmaceuticalintelligence.com/2017/08/29/live-829-chis-oncolytic-virus-immunotherapy-and-adoptive-cell-therapy-august-28-29-2017-sheraton-boston-hotel-boston-ma/

 

One year ago we published the following:

What does this mean for Immunotherapy? FDA put a temporary hold on Juno’s JCAR015, Three Death of Celebral Edema in CAR-T Clinical Trial and Kite Pharma announced Phase II portion of its CAR-T ZUMA-1 trial

https://pharmaceuticalintelligence.com/2016/07/09/what-does-this-mean-for-immunotherapy-fda-put-a-temporary-hold-on-jcar015-three-death-of-celebral-edema-in-car-t-clinical-trial-and-kite-pharma-announced-phase-ii-portion-of-its-car-t-zuma-1-trial/

 

reported on Aug. 28, 2017 that Gilead just handed a revolutionary kind of cancer treatment a $12 billion endorsement.

For Gilead, which is known for its HIV and hepatitis C medications, this is an entirely new area of cancer development.

“The field of cell therapy has advanced very quickly, to the point where the science and technology have opened a clear path toward a potential cure for patients,” Gilead CEO John Milligan said in a news release. “We are greatly impressed with the Kite team and what they have accomplished, and share their belief that cell therapy will be the cornerstone of treating cancer.”

In July, a Food and Drug Administration panel voted in favor of approving one of these treatments made by Novartis. One of the panelists called it “most exciting thing I’ve seen in my lifetime.” The FDA is expected to decide whether to approve that therapy, a treatment for pediatric acute lymphoblastic lymphoblastic leukemia, by October.

Gilead won’t have to wait long to see if the FDA will approve Kite’s leading cell therapy, which is called axicabtagene ciloleucel or axi-cel. In November, Kite is expected to get an answer from the FDA regarding its CAR-T treatment for a type of blood cancer called aggressive B-cell non-Hodgkin lymphoma. In data Kite released in February, the company found that out of 101 patients, 36% had a complete response to the treatment after six months.

The one-time treatments won’t come cheap. While companies might price the drug based on how well it works, axi-cel’s price tag could still be $325,000. Analysts expect the therapy to generate $1.7 billion in sales by 2022.

While its axi-cel program is the farthest along, Kite’s also working on another CAR-T cell therapy that’s in clinical trialsto treat multiple myeloma, another form of blood cancer. The company’s also working on cell therapies to treat solid tumors that are still in early clinical trials.

On August 30, 2017, John Carroll writes: 

[A]pproval marks a major shift in oncology, with a truly revolutionary approach to treating cancer.

The FDA has approved the world’s first CAR-T therapy, giving a green light to Novartis for Kymriah (tisagenlecleucel) in what regulators themselves describe as an historic event.

The accelerated approval — about a month ahead of the PDUFA date — came through for certain pediatric and young adult patients with a form of acute lymphoblastic leukemia

Novartis, the leader in the field, which will set the price on this therapy and likely those to come. Novartis’ investigators registered a game-changing 83% remission rate in its pivotal study.

CAR-T, though, is also associated with severe and potentially deadly side effects, including lethal instances of cytokine release syndrome with some patients dying from brain swelling in separate studies from the Novartis drug.

Regulators noted that they will require special training for anyone involved in delivering this therapy, while expanding the approval of Actemra (tocilizumab) to treat CAR T-cell-induced severe or life-threatening CRS in patients 2 years of age or older. “In clinical trials in patients treated with CAR-T cells,” the FDA reported, “69% of patients had complete resolution of CRS within two weeks following one or two doses of Actemra.”

Said Joseph Jimenez, CEO of Novartis:

“Five years ago, we began collaborating with the University of Pennsylvania and invested in further developing and bringing what we believed would be a paradigm-changing immunocellular therapy to cancer patients in dire need. With the approval of Kymriah, we are once again delivering on our commitment to change the course of cancer care.”

This approval marks a major shift in oncology, with a truly revolutionary approach to treating cancer. That hasn’t escaped the notice of big players and small, with a host of developers looking to do much better, more safely, with new drugs in the pipeline.

SOURCE

From: “John Carroll [Endpoints News]” <john@endpointsnews.com>

Reply-To: <john@endpointsnews.com>

Date: Wednesday, August 30, 2017 at 11:27 AM

To: Aviva Lev-Ari <AvivaLev-Ari@alum.berkeley.edu>

Subject: BREAKING: FDA ushers in a new era in cancer treatment with ‘historic’ CAR-T approval for Novartis

Novartis’ Canakinumab – NEW Inflammation hypothesis of lung cancer

When researchers looked at the safety profile of canakinumab, they found something amazing — a major reduction in the risk of fatal cancers. This was driven by an effect of the highest dose of the drug to prevent lung cancer. The 300 mg dose reduced the occurrence of lung cancer by 67% and death from lung cancer by 77%. It was Viagra all over again.

SOURCE

Is Canakinumab the Next Viagra?

In this Revolution and Revelation, Milton Packer explains how safety data can sometimes trump a primary endpoint

by Milton PackerAugust 30, 2017

https://www.medpagetoday.com/Blogs/RevolutionandRevelation/67605

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Genomic Diagnostics: Three Techniques to Perform Single Cell Gene Expression and Genome Sequencing Single Molecule DNA Sequencing

Posted in Analytical Instruments Industry, Bio Instrumentation in Experimental Life Sciences Research, BioIT: BioInformatics, NGS, Clinical & Translational, Pharmaceutical R&D Informatics, Clinical Genomics, Cancer Informatics, Biological Networks, Gene Regulation and Evolution, Biomarkers & Medical Diagnostics, Biomedical Measurement Science, Cell Biology, Cell Biology, Signaling & Cell Circuits, Computational Biology/Systems and Bioinformatics, DNA repair, Drug Discovery Chemistry, Gene Regulation and Evolution, Genetics & Innovations in Treatment, Genome Biology, Genomic Testing: Methodology for Diagnosis, Meta-analysis of transcriptome data, Microfuidics, Transcriptomics, tagged , , , , , on July 4, 2017| Leave a Comment »

Genomic Diagnostics: Three Techniques to Perform Single Cell Gene Expression and Genome Sequencing Single Molecule DNA Sequencing

Curator: Aviva Lev-Ari, PhD, RN

4.2.3

4.2.3   Genomic Diagnostics: Three Techniques to Perform Single Cell Gene Expression and Genome Sequencing Single Molecule DNA Sequencing, Volume 2 (Volume Two: Latest in Genomics Methodologies for Therapeutics: Gene Editing, NGS and BioInformatics, Simulations and the Genome Ontology), Part 4: Single Cell Genomics

This article presents Three Techniques to Perform Single Cell Gene Expression and Genome Sequencing Single molecule DNA sequencing

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Ido Sagi – PhD Student @HUJI, 2017 Kaye Innovation Award winner for leading research that yielded the first successful isolation and maintenance of haploid embryonic stem cells in humans.

Posted in Behavioral Genetics, Bio Instrumentation in Experimental Life Sciences Research, Biological Networks, Gene Regulation and Evolution, Cell Biology, Cell Processing System in Cell Therapy Process Development, Chemical Genetics, Circulating Progenitor Cells, Diagnostics and Lab Tests, Disease Biology, Drug Discovery Chemistry, Epigenetics and Environmental Factors, Gene Regulation and Evolution, Genetics & Innovations in Treatment, Genetics & Pharmaceutical, Genome Biology, Genomic Testing: Methodology for Diagnosis, Medical and Population Genetics, Personalized and Precision Medicine & Genomic Research, Scientist: Career considerations, Stem Cells for Regenerative Medicine on June 29, 2017| Leave a Comment »

Ido Sagi – PhD Student @HUJI, 2017 Kaye Innovation Award winner for leading research that yielded the first successful isolation and maintenance of haploid embryonic stem cells in humans.

Reporter: Aviva Lev-Ari, PhD, RN

 

Ido Sagi – PhD Student, Silberman Institute of Life Sciences, HUJI, Israel

  • Ido Sagi’s research focuses on studying genetic and epigenetic phenomena in human pluripotent stem cells, and his work has been published in leading scientific journals, including NatureNature Genetics and Cell Stem Cell.
  • Ido Sagi received BSc summa cum laude in Life Sciences from the Hebrew University, and currently pursues a PhD at the laboratory of Prof. Nissim Benvenisty at the university’s Department of Genetics in the Alexander Silberman Institute of Life Sciences.

The Kaye Innovation Awards at the Hebrew University of Jerusalem have been awarded annually since 1994. Isaac Kaye of England, a prominent industrialist in the pharmaceutical industry, established the awards to encourage faculty, staff and students of the Hebrew University to develop innovative methods and inventions with good commercial potential, which will benefit the university and society.

Publications – Ido Sagi

Comparable frequencies of coding mutations and loss of imprinting in human pluripotent cells derived by nuclear transfer and defined factors.
Cell Stem Cell 2014 Nov 6;15(5):634-42. Epub 2014 Nov 6.
The New York Stem Cell Foundation Research Institute, New York, NY 10032, USA; Naomi Berrie Diabetes Center & Department of Pediatrics, College of Physicians and Surgeons, Columbia University, New York, NY 10032, USA. Electronic address:

November 2014

 

Download Full Paper
Human oocytes reprogram adult somatic nuclei of a type 1 diabetic to diploid pluripotent stem cells.
Nature 2014 Jun 28;510(7506):533-6. Epub 2014 Apr 28.
The New York Stem Cell Foundation Research Institute, New York, New York 10032, USA.

June 2014

 

Download Full Paper
Stem cells: Aspiring to naivety.
Nature 2016 12 30;540(7632):211-212. Epub 2016 Nov 30.
The Azrieli Center for Stem Cells and Genetic Research, Department of Genetics, Silberman Institute of Life Sciences, The Hebrew University of Jerusalem, Jerusalem 91904, Israel.
November 2016

Download Full Paper

SOURCE

Other related articles on Genetic and Epigenetic phenomena in human pluripotent stem cells published by LPBI Group can be found in the following e-Books on Amazon.com

e-Books in Medicine

https://www.amazon.com/s/ref=dp_byline_sr_ebooks_9?ie=UTF8&text=Aviva+Lev-Ari&search-alias=digital-text&field-author=Aviva+Lev-Ari&sort=relevancerank

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‘Landmark FDA approval bolsters personalized medicine’ by Edward Abrahams, PhD, President, PMC

Posted in Cancer and Current Therapeutics, Drug Discovery Chemistry, FDA Regulatory Affairs, Genome Biology, Personalized and Precision Medicine & Genomic Research, Variation in human protein-coding regions on June 21, 2017| Leave a Comment »

Personalized Medicine been Positively affected by FDA Drug Approval Record

Reporter: Aviva Lev-Ari, PhD, RN

FDA to Clear Path for Drugs Aimed at Cancer-Causing Genes

By Anna Edney and Michelle Cortez

June 20, 2017, 10:41 AM EDT June 20, 2017, 3:02 PM EDT

https://www.bloomberg.com/news/articles/2017-06-20/fda-moves-to-clear-path-for-drugs-aimed-at-cancer-causing-genes

 

 

‘Landmark FDA approval bolsters personalized medicine’

PMC – An Op-Ed in STAT News

by Edward Abrahams

June 21, 2017

Our understanding of cancer has been morphing from a tissue-specific disease — think lung cancer or breast cancer — to a disease characterized more by specific genes or biomarkers than by location. A recent FDA decision underscores that transition and further opens the door to personalized medicine.

Two years ago, the director of the FDA’s Office of Hematology and Oncology Products told the Associated Press that there was no precedent for the agency to approve a drug aimed at treating tumors that generate a specific biomarker no matter where the cancer is in the body. Such a drug had long been seen as the epitome of personalized medicine. But with the rapid pace of progress in the field, director Dr. Richard Pazdur said, such an approval could one day be possible.

That day has arrived.

In a milestone decision for personalized medicine, the FDA approved Merck’s pembrolizumab (Keytruda) late last month for the treatment of tumors that express one of two biomarkers regardless of where in the body the tumors are located. The decision marks the first time FDA has approved a cancer drug for an indication based on the expression of specific biomarkers rather than the tumor’s location in the body.

Keytruda is designed to help the immune system recognize and destroy cancer cells by targeting a specific cellular pathway. The FDA notes that the two biomarkers — microsatellite instability-high (MSI-H) and mismatch repair deficient (dMMR) — affect the proper repair of DNA inside cells.

The approval represents an important first for the field of personalized medicine, which anticipates an era in which physicians use molecular tests to classify different forms of cancer based on the biomarkers they express, then choose the right treatment for it. In contrast to standard cancer treatments, which are given to large populations of patients even though only a fraction of them will benefit, Keytruda was approved only for the 4 percent of cancer patients whose tumors exhibit MSI-H or dMMR mutations. That may help the health system save money by focusing resources only on patients who are likely to benefit from Keytruda.

Such “personalized” strategies now dominate the landscape for cancer drug development. Personalized medicines account for nearly 1 of every 4 FDA approvals from 2014 to 2016, and the Tufts Center for the Study of Drug Development estimates that more than 70 percent of cancer drugs now in development are personalized medicines.

While this is encouraging, the U.S. research, regulatory, and reimbursement systems aren’t aligned to stimulate the development of personalized medicines, and may even deter progress.

The Trump administration’s proposal to cut biomedical research spending at the National Institutes of Health by 18 percent in fiscal year 2018, for example, would undermine its ability to fund more studies like the National Cancer Institute’s Molecular Analysis for Therapy Choice (MATCH) trial, which is designed to test targeted therapies across tumor types.

While the regulatory landscape for these targeted medicines is clear, the path to market for the molecular tests that do the targeting is not. That uncertainty continues to stifle investment in the innovative tests that make personalized medicine possible. The result is a clinical environment in which the patients who could benefit from personalized medicines are often never identified because the necessary tests aren’t available to them.

Finally, increasing pressure on pharmaceutical and diagnostic companies to decrease prices without considering their value to individual patients and the health system could also deter investment in innovative solutions that address unmet medical needs, particularly for smaller patient populations.

Confronted with unprecedented opportunities in personalized medicine, policymakers would do well to ensure that our research, regulatory, and reimbursement systems facilitate the development of and access to these promising new therapies. Only then can we ensure that Keytruda’s groundbreaking approval represents the beginning of a new era that promises better health and a more cost-effective health system.

Edward Abrahams, Ph.D., is president of the Personalized Medicine Coalition.

 

 

 

SOURCE

From: <cwells@personalizedmedicinecoalition.org>

Date: Wednesday, June 21, 2017 at 1:38 PM

To: Aviva Lev-Ari <AvivaLev-Ari@alum.berkeley.edu>

Subject: PMC in STAT: “Landmark FDA Approval Bolsters Personalized Medicine”

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