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Molecular Therapeutics: 21st Century Medicine

ISBN: 978-0-470-01916-0
Hardcover
264 pages
December 2007
List Price: US $217.25
Government Price: US $125.40
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Prologue.

1 Introduction.
1.1 Microbial diseases.
1.2 Cancer and heart disease.
1.3 Genetic diseases.
1.4 Role of molecular biology in therapeutics.

2 Prenatal diagnosis and pre-implementation.

2.1 Should we treat inherited diseases?
2.2 Genetic screening.
2.2.1 Pre-implementation genetic diagnosis.
2.3 Counselling.

3 Simple protein replacement therapy.
3.1 Preventing transfusion-transmissible infectious diseases in the UK.
3.2 Ensuring the safety of organ transplants.
3.3 Preventing transfusion-transmissible infectious diseases worldwide.
3.4 HIV.

4 Recombinant protein production.

4.1 Choice of organism.
4.2 Alternatives to E. coli for the production of recombinant proteins.
4.3 Problems with recombinant protein production.
4.4 All recombinants must be tested before they are given to humans.
4.5 Why make recombinant proteins?
4.6 Recombinant products.
4.7 Generics.

5 Recombinant vaccines.

5.1 Vaccine history.
5.2 Vaccines.
5.3 Vaccine methods.
5.4 Types of vaccine.
5.5 The limitations of vaccine programmes.
5.6 The role of the WHO.
5.7 Problems specific to developing countries.
5.8 Economics and logistics of vaccinology.
5.9 Recombinant vaccines.
5.10 Rational design: bioinformatics and proteomics.
5.11 Other interesting areas for vaccine development.
5.12 Conclusion.

6 Therapeutic antibodies and immunotherapy.
6.1 Monoclonal antibodies.
6.2 Monoclonal production.
6.3 Therapeutic monoclonal antibodies.
6.4 Transgenic monoclonals.
6.5 The uses of monoclonal antibodies in therapy.
6.6 Specific examples of therapeutic strategies.
6.7 Other recombinant proteins used in immunotherapy.

7 Transgenic animals.
7.1 Why do we want to engineer the genomes of animals?
7.2 Experimental procedure.
7.3 DNA constructs, insertional mutagenesis and homologous recombination.
7.4 Uses of inducible and tissue-specific promoters.
7.5 Introduction of the DNA into the cells.
7.6 Uses of transgenics.

8 Transplantation: a form of gene therapy.
8.1 Introduction.
8.2 Bone marrow.
8.3 Solid organ transplantation.
8.4 Other cells and tissues.
8.5 Summary of the problems associated with transplantation.
8.6 Transplantation statistics.
8.7 Legislation.
8.8 Religious beliefs and transplantation.

9 Xenotransplantation.

9.1 Introduction.
9.2 Rationale for the use of non-human donors.
9.3 Organs from non-human primates.
9.4 Pigs.
9.5 Problems with pigs.
9.6 Government legislation.
9.7 When will xenotransplantation start?
9.8 Patient attitudes.
9.9 Ethics.
9.10 Alternatives to xenotransplants.

10 Reproductive cloning

10.1 History.
10.2 Problems.
10.3 Why was there so much interest in Dolly?
10.4 Was Dolly a lone example?
10.5 Why is cloning useful?
10.6 Is human cloning a reality?
10.7 Why can we not produce human clones that are identical?
10.8 So why clone humans?
10.9 What are the ethical and moral problems?

11 Stem cell therapy.

11.1 The potency of cells.
11.2 Cloning.
11.3 Potency of stem cells.
11.4 Potential sources of stem cells.
11.5 Stem cells and therapeutic cloning.
11.6 Legislation and therapeutic cloning.
11.7 Other sources of stem cells.
11.8 What can be done?
11.9 Experiments on embryonic cells.
11.10 Experiments on fetal tissue and cord blood.
11.11 Stem cells from adult tissues.
11.12 Safety and technical problems.
11.13 Perceived scope of therapy.
11.14 Clinical trials of stem cell therapy.
11.15 What are the future prospects for stem cell research?

12 Gene augmentation therapy.

12.1 Introduction.
12.2 Strategy.

13 Gene therapy trials for inherited diseases.

13.1 Introduction.
13.2 Examples of disease treated with retroviral gene therapy.
13.3 Cystic fibrosis.
13.4 Animal trials with Factor IX.
13.5 Adenoviruses have also been used to introduce genes into brain.
13.6 Duchenne's muscular dystrophy.
13.7 Problems with adenoviruses.
13.8 The uses of adeno-associated viruses.
13.9 Liposome vector trials.
13.10 Trials with polymer mareix delivery.

14 Gene silencing technologies.

14.1 Antisense therapy.
14.2 Triple helix (triplex) technology.
14.3 Ribozymes.
14.4 Small interfering RNAs (siRNAs).

15 Gene therapy for cancer.

15.1 What causes cancer?
15.2 Cancer: a multifactorial disease.
15.3 Cancer statistics.
15.4 Best treatment currently available.
15.5 Do chemo- and radiotherapy cause problems?
15.6 New cancer therapies.
15.7 Cancer models in animals.
15.8 What kinds of gene therapy can we use to treat cancer?
15.9 Perceived problems in cancer gene augmentation therapy.
15.10 Gene silencing technologies and cancer.
15.11 Conclusion.

16 Single-nucleotide polymorphisms (SNPs) and therapy.

17 Legislation, clinical trials and ethical issues.
17 Legislation, clinical trials and ethical issues.
17.1 Legislative bodies.
17.2 Clinical trials.
17.3 The problems of placebo controlled trials.
17.4 The need for informed consent.
17.5 Trials in developing countries.
17.6 Recent trial issues.
17.7 Conclusion.

Epilogue.
Sourcing references.
Index.

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