About the Foundation
NDI Facts & Statistics
Introduction
Description
Diagnosis & Treatment
History of NDI
Patient/Parent Pages
Overview
Medical Alert Cards
Nutrition Guidelines
Low Sodium Diet Basics
Sodium in Foods (6-9 mo.)
Sodium in Foods (9-12 mo.)
Sodium in Foods (toddlers+)
Label Reading Tips
Family Favorite Recipe Tips
Sodium Content of Selected Foods
Sample Meal Patterns
Low Sodium Cookbooks
General Nutrition Guidelines
Other Low Sodium Info
FAQs
NDI: An Overview
Where can I find support?
Health Care
Medications
Diet and Nutrition
Lithium-induced NDI
Pregnancy and NDI
Growth and Development
Behavioral and Social Concerns
What will happen in the future?
Research
Journal Articles
Publishers
Researchers
Terminology
News & Conferences
Foundation News
Global Conferences
2004 - Phoenix
2002 - Heemskerk
2000 - La Jolla
1999 - Amsterdam
1998 - La Jolla
How Can I Help?
Useful Links
Contact Information
Mark L. Zeidel
Title:
Chairman of the Renal and Electrolyte Division
Email:
Phone:
Work (412) 648-9636, Fax (412) 648-2117
Organization:
University of Pittsburgh Medical Center
Address:
1218 Scaife Hall 3550 Terrace St.
Pittsburgh, PA 15261
United States
14 Articles
14 Articles
Annexin A4 Reduces Water and Proton Permeability of Model Membranes but Does Not Alter Aquaporin 2-mediated Water Transport in Isolated Endosomes
Recent Advances in Water Transport
Phosphorylation of Aquaporin-2 does not alter the Membrane Water Permeability of Rat Papillary Water Channel-containing Vesicles
Characterization of Purified Endosomes Containing the Antidiuretic Hormone-Sensitive Water Channel From Rat Renal Papilla
The Molecular Structure of the Antidiuretic Hormone Elicited Water Channel
Fate of Antidiuretic Hormone Water Channel Proteins after Retrieval from Apical Membrane
Water Channels
Transport Defects of Rabbit Inner Medullary Collecting Duct Cells in Obstructive Nephropathy
Mechanisms and Regulation of Water Transport in the Kidney
Purification and Partial Characterization of Candidate Antidiuretic Hormone Water Channel Proteins of Mr 55,000 and 53,000 from Toad Urinary Bladder
Cytoplasmic Dilution Induces Antidiuretic Hormone Water Channel Retrieval in Toad Urinary Bladder
Current Understanding of the Cellular Biology and Molecular Structure of the Antidiuretic Hormone-stimulated Water Transport Pathway
Quantitation and Topography of Membrane Proteins in Highly Water-Permeable Vesicles From ADH-Stimulated Toad Bladder
High Proton Flux through Membranes Containing Antidiuretic Hormone Water Channels
14 Articles
14 Articles