Sara R Zwart1,2, Barbara L Rice3,4, Holly Dlouhy3,4, Linda C Shackelford5, Martina Heer6, Matthew D Koslovsky4, Scott M Smith5. 1. Universities Space Research Association, Houston, TX. 2. Department of Preventive Medicine and Community Health, University of Texas Medical Branch, Galveston, TX. 3. Enterprise Advisory Services, Inc., Houston, TX. 4. KBRwyle, Houston, TX. 5. Human Health and Performance Directorate, NASA Lyndon B. Johnson Space Center, Houston, TX. 6. Institute of Nutritional and Food Sciences, University of Bonn, Bonn, Germany.
Abstract
Background: Bed rest studies document that a lower dietary acid load is associated with lower bone resorption. Objective: We tested the effect of dietary acid load on bone metabolism during spaceflight. Design: Controlled 4-d diets with a high or low animal protein-to-potassium (APro:K) ratio (High and Low diets, respectively) were given to 17 astronauts before and during spaceflight. Each astronaut had 1 High and 1 Low diet session before flight and 2 High and 2 Low sessions during flight, in addition to a 4-d session around flight day 30 (FD30), when crew members were to consume their typical in-flight intake. At the end of each session, blood and urine samples were collected. Calcium, total protein, energy, and sodium were maintained in each crew member's preflight and in-flight controlled diets. Results: Relative to preflight values, N-telopeptide (NTX) and urinary calcium were higher during flight, and bone-specific alkaline phosphatase (BSAP) was higher toward the end of flight. The High and Low diets did not affect NTX, BSAP, or urinary calcium. Dietary sulfur and age were significantly associated with changes in NTX. Dietary sodium and flight day were significantly associated with urinary calcium during flight. The net endogenous acid production (NEAP) estimated from the typical dietary intake at FD30 was associated with loss of bone mineral content in the lumbar spine after the mission. The results were compared with data from a 70-d bed rest study, in which control (but not exercising) subjects' APro:K was associated with higher NTX during bed rest. Conclusions: Long-term lowering of NEAP by increasing vegetable and fruit intake may protect against changes in loss of bone mineral content during spaceflight when adequate calcium is consumed, particularly if resistive exercise is not being performed. This trial was registered at clinicaltrials.gov as NCT01713634.
Background: Bed rest studies document that a lower dietary acid load is associated with lower bone resorption. Objective: We tested the effect of dietary acid load on bone metabolism during spaceflight. Design: Controlled 4-d diets with a high or low animal protein-to-potassium (APro:K) ratio (High and Low diets, respectively) were given to 17 astronauts before and during spaceflight. Each astronaut had 1 High and 1 Low diet session before flight and 2 High and 2 Low sessions during flight, in addition to a 4-d session around flight day 30 (FD30), when crew members were to consume their typical in-flight intake. At the end of each session, blood and urine samples were collected. Calcium, total protein, energy, and sodium were maintained in each crew member's preflight and in-flight controlled diets. Results: Relative to preflight values, N-telopeptide (NTX) and urinary calcium were higher during flight, and bone-specific alkaline phosphatase (BSAP) was higher toward the end of flight. The High and Low diets did not affect NTX, BSAP, or urinary calcium. Dietary sulfur and age were significantly associated with changes in NTX. Dietary sodium and flight day were significantly associated with urinary calcium during flight. The net endogenous acid production (NEAP) estimated from the typical dietary intake at FD30 was associated with loss of bone mineral content in the lumbar spine after the mission. The results were compared with data from a 70-d bed rest study, in which control (but not exercising) subjects' APro:K was associated with higher NTX during bed rest. Conclusions: Long-term lowering of NEAP by increasing vegetable and fruit intake may protect against changes in loss of bone mineral content during spaceflight when adequate calcium is consumed, particularly if resistive exercise is not being performed. This trial was registered at clinicaltrials.gov as NCT01713634.
Authors: Scott M Smith; Meryl E Wastney; Kimberly O O'Brien; Boris V Morukov; Irina M Larina; Steven A Abrams; Janis E Davis-Street; Victor Oganov; Linda C Shackelford Journal: J Bone Miner Res Date: 2004-11-08 Impact factor: 6.741
Authors: Scott M Smith; Martina Heer; Zuwei Wang; Carolyn L Huntoon; Sara R Zwart Journal: J Clin Endocrinol Metab Date: 2011-11-02 Impact factor: 5.958
Authors: Sara R Zwart; Alan R Hargens; Stuart M C Lee; Brandon R Macias; Donald E Watenpaugh; Kevin Tse; Scott M Smith Journal: Bone Date: 2006-10-27 Impact factor: 4.398
Authors: Mariya Stavnichuk; Nicholas Mikolajewicz; Tatsuya Corlett; Martin Morris; Svetlana V Komarova Journal: NPJ Microgravity Date: 2020-05-05 Impact factor: 4.415
Authors: Benjamin H Parmenter; Michael Dymock; Tanushree Banerjee; Anthony Sebastian; Gary J Slater; Lynda A Frassetto Journal: Kidney Int Rep Date: 2020-07-29
Authors: Mark Shelhamer; Jacob Bloomberg; Adrian LeBlanc; G Kim Prisk; Jean Sibonga; Scott M Smith; Sara R Zwart; Peter Norsk Journal: NPJ Microgravity Date: 2020-02-12 Impact factor: 4.415
Authors: Zarana S Patel; Tyson J Brunstetter; William J Tarver; Alexandra M Whitmire; Sara R Zwart; Scott M Smith; Janice L Huff Journal: NPJ Microgravity Date: 2020-11-05 Impact factor: 4.415
Authors: Mariya Stavnichuk; Nicholas Mikolajewicz; Tatsuya Corlett; Martin Morris; Svetlana V Komarova Journal: NPJ Microgravity Date: 2020-05-05 Impact factor: 4.415