Search
Filter Results
- Resource Type
- Article1
- Book1
- Book Digital1
- Result From
- Lane Catalog1
- PubMed1
-
Year
- Journal Title
- Rev Can Biol1
Search Results
Sort by
- BookAnthony Bateman and Peter Fonagy.Summary: Loss of mentalizing leads to interpersonal and social problems, emotional variability, impulsivity, self-destructive behaviours, and violence. This practical guide on MBT treatment of personality disorders outlines the mentalizing model of borderline and antisocial personality disorders and how it translates into an effective clinical treatment.
Contents:
Pt. 1 Mentalizing framework
1. What is mentalizing?
2. Using the mentalizing model to understand personality disorder
3. Comorbidity
4. Assessment of mentalizing
pt. 2 Mentalizing practice
5. Structure of mentalization-based treatment
6. Clinician stance
7. Principles for the mentalizing clinician
8. Mentalizing focus: support, empathy, and validation
9. Mentalizing focus: clarification, affect elaboration, affect focus, and challenge
10. Relational focus of mentalizing: transference tracers and mentalizing the relationship
Pt. 3. Mentalizing groups
11. MBT-Introductory group (MBT-I)
12. Mentalizing group therapy
13. Antisocial personality disorder: mentalizing, MBT-G, and common clinical problems
Pt. 4 Mentalizing systems
14. Mentalizing and families: the Families and Carers Training and Support program (FACTS)
15. Mentalizing the system.Digital Access Oxford 2016 - ArticleIshaque M, Kato L.Rev Can Biol. 1977 Sep;36(3):277-82.Oxidation of various substrates by whole cell suspensions of M. Lepraemurium and M. leprae was investigated using manometric techniques. Yeast extract, L-cysteine, dithioerythritol, and DL-penicillamine were oxidized by both M. lepraemurium as well as by M. leprae. Although tween 80 was oxidized by M. lepraemurium cell suspensions, it was not by M. leprae. Succinate was readily oxidized by whole cells of M. leprae (without being frozen) whereas it was oxidized only by M. lepraemurium cells frozen at -40 degrees C for one minute. The results indicate that M. leprae and M. lepraemurium are capable of oxidizing some substrates without requiring any cofactor and are not dependent upon host cells for respiration.