Yellow-bellied Marmots (Marmota flaviventris) preserve bone strength and microstructure during hibernation

Elucidating the Mechanism for Maintaining Eucalcemia Despite Immobility and Anuria in the Hibernating Black Bear (Ursus americanus)

Seger, Rita Logan

December 2008

Mechanical strain is an essential anabolic stimulus for bone. Skeletal unloading causes rapid, marke...

Black bear femoral porosity decreases and mechanical properties increase with age despite annual periods of disuse (hibernation)

McGee, Meghan E.
Magic, Keith W.
Miller, Danielle L.
Maki, Aaron J.
Donahue, Seth W.

August 2007

Inactivity causes bone loss, and a remobilization period that is 2-3 times longer than the disuse pe...

Polar bears (Ursus maritimus), the most evolutionary advanced hibernators, avoid significant bone loss during hibernation

Lennox, Alanda R.
Goodship, Allen Edward

January 2008

Some hibernating animals are known to reduce muscle and bone loss associated with mechanical unloadi...

Exploring the Bone Proteome to Help Explain Altered Bone Remodeling and Preservation of Bone Architecture and Strength in Hibernating Marmots

Doherty, Alison H.
Roteliuk, Danielle M.
Gookin, Sara E.
McGrew, Ashley K.
Broccardo, Carolyn J.
Condon, Keith W.
Prenni, Jessica E.
Wojda, Samantha J.
Florant, Gregory L.
Donahue, Seth W.

September 2016

Periods of physical inactivity increase bone resorption and cause bone loss and increased fracture r...

Thirteen-lined ground squirrels (Ictidomys tridecemlineatus) show microstructural bone loss during hibernation but preserve bone macrostructural geometry and strength

McGee-Lawrence, Meghan E.
Stoll, Danielle M.
Mantila, Emily R.
Fahrner, Bryna K.
Carey, Hannah V.
Donahue, Seth W.

April 2011

Lack of activity causes bone loss In most animals. Hibernating bears have physiological processes to...

Arctic ground squirrels limit bone loss during the prolonged physical inactivity associated with hibernation

Wojda, Samantha J.
Gridley, Richard A.
McGee-Lawrence, Meghan E.
Drummer, Thomas D.
Hess, Ann
Kohl, Franziska
Barnes, Brian M.
Donahue, Seth W.

January 2016

Six months of disuse during hibernation does not increase intracortical porosity or decrease cortical bone geometry, strength, or mineralization in black bear (Ursus americanus) femurs

McGee-Lawrence, Meghan E.
Wojda, Samantha J.
Barlow, Lindsay N.
Drummer, Thomas D.
Bunnell, Kevin
Auger, Janene
Black, Hal L.
Donahue, Seth W.

July 2009

Disuse typically uncouples bone formation from resorption, leading to bone loss which compromises bo...

Decreased bone turnover with balanced resorption and formation prevent cortical bone loss during disuse (hibernation) in grizzly bears (Ursus arctos horribilis)

McGee, Meghan E.
Maki, Aaron J.
Johnson, Steven E.
Nelson, O. Lynne
Robbins, Charles T.
Donahue, Seth W.

February 2008

Disuse uncouples bone formation from resorption, leading to increased porosity, decreased bone geome...

Grizzly bears (Ursus arctos horribilis) and black bears (Ursus americanus) prevent trabecular bone loss during disuse (hibernation)

McGee-Lawrence, Meghan E.
Wojda, Samantha J.
Barlow, Lindsay N.
Drummer, Thomas D.
Castillo, Alesha B.
Kennedy, Oran
Condon, Keith W.
Auger, Janene
Black, Hal L.
Nelson, O. Lynne
Robbins, Charles T.
Donahue, Seth W.

December 2009

Disuse typically causes an imbalance in bone formation and bone resorption, leading to losses of cor...

Bone formation is not impaired by hibernation (disuse) in black bears Ursus americanus

Donahue, Seth W.
Vaughan, Michael R.
Demers, Laurence M.
Donahue, Henry J.

December 2003

Disuse by bed rest, limb immobilization or space flight causes rapid bone loss by arresting bone for...

Mammalian hibernation as a model of disuse osteoporosis: The effects of physical inactivity on bone metabolism, structure, and strength

McGee-Lawrence, Meghan E.
Carey, Hannah V.
Donahue, Seth W.

December 2008

Reduced skeletal loading typically leads to bone loss because bone formation and bone resorption bec...

Bone Strength is Maintained After 8 Months of Inactivity in Hibernating Goldenmantled Ground Squirrels, Spermophilus Lateralis

Utz, Jenifer C
Nelson, Stacy
OToole, Brendan
van Breukelen, Frank

August 2009

Prolonged inactivity leads to disuse atrophy, a loss of muscle and bone mass. Hibernating mammals ar...

Bending properties, porosity, and ash fraction of black bear (Ursus americanus) cortical bone are not compromised with aging despite annual periods of disuse

Harvey, Kristin B.
Donahue, Seth W.

October 2004

In many species, including humans, disuse causes an imbalance in bone remodeling that leads to incre...

The tensile strength of black bear (Ursus americanus) cortical bone is not compromised with aging despite annual periods of hibernation

Harvey, Kristin B.
Drummer, Thomas D.
Donahue, Seth W.

November 2005

Black bears (Ursus americanus) may not develop disuse osteoporosis during long periods of disuse (i....

Hibernating bears as a model for preventing disuse osteoporosis

Donahue, Seth W.
McGee, Meghan E.
Harvey, Kristin B.
Vaughan, Michael R.
Robbins, Charles T.

August 2006

The hibernating bear is an excellent model for disuse osteoporosis in humans because it is a natural...

Elucidating the Mechanism for Maintaining Eucalcemia Despite Immobility and Anuria in the Hibernating Black Bear (Ursus americanus)

Seger, Rita Logan

December 2008

Mechanical strain is an essential anabolic stimulus for bone. Skeletal unloading causes rapid, marke...

Black bear femoral porosity decreases and mechanical properties increase with age despite annual periods of disuse (hibernation)

McGee, Meghan E.
Magic, Keith W.
Miller, Danielle L.
Maki, Aaron J.
Donahue, Seth W.

August 2007

Inactivity causes bone loss, and a remobilization period that is 2-3 times longer than the disuse pe...

Polar bears (Ursus maritimus), the most evolutionary advanced hibernators, avoid significant bone loss during hibernation

Lennox, Alanda R.
Goodship, Allen Edward

January 2008

Some hibernating animals are known to reduce muscle and bone loss associated with mechanical unloadi...

Exploring the Bone Proteome to Help Explain Altered Bone Remodeling and Preservation of Bone Architecture and Strength in Hibernating Marmots

Doherty, Alison H.
Roteliuk, Danielle M.
Gookin, Sara E.
McGrew, Ashley K.
Broccardo, Carolyn J.
Condon, Keith W.
Prenni, Jessica E.
Wojda, Samantha J.
Florant, Gregory L.
Donahue, Seth W.

September 2016

Periods of physical inactivity increase bone resorption and cause bone loss and increased fracture r...

Thirteen-lined ground squirrels (Ictidomys tridecemlineatus) show microstructural bone loss during hibernation but preserve bone macrostructural geometry and strength

McGee-Lawrence, Meghan E.
Stoll, Danielle M.
Mantila, Emily R.
Fahrner, Bryna K.
Carey, Hannah V.
Donahue, Seth W.

April 2011

Lack of activity causes bone loss In most animals. Hibernating bears have physiological processes to...

Arctic ground squirrels limit bone loss during the prolonged physical inactivity associated with hibernation

Wojda, Samantha J.
Gridley, Richard A.
McGee-Lawrence, Meghan E.
Drummer, Thomas D.
Hess, Ann
Kohl, Franziska
Barnes, Brian M.
Donahue, Seth W.

January 2016

Six months of disuse during hibernation does not increase intracortical porosity or decrease cortical bone geometry, strength, or mineralization in black bear (Ursus americanus) femurs

McGee-Lawrence, Meghan E.
Wojda, Samantha J.
Barlow, Lindsay N.
Drummer, Thomas D.
Bunnell, Kevin
Auger, Janene
Black, Hal L.
Donahue, Seth W.

July 2009

Disuse typically uncouples bone formation from resorption, leading to bone loss which compromises bo...

Decreased bone turnover with balanced resorption and formation prevent cortical bone loss during disuse (hibernation) in grizzly bears (Ursus arctos horribilis)

McGee, Meghan E.
Maki, Aaron J.
Johnson, Steven E.
Nelson, O. Lynne
Robbins, Charles T.
Donahue, Seth W.

February 2008

Disuse uncouples bone formation from resorption, leading to increased porosity, decreased bone geome...

Grizzly bears (Ursus arctos horribilis) and black bears (Ursus americanus) prevent trabecular bone loss during disuse (hibernation)

McGee-Lawrence, Meghan E.
Wojda, Samantha J.
Barlow, Lindsay N.
Drummer, Thomas D.
Castillo, Alesha B.
Kennedy, Oran
Condon, Keith W.
Auger, Janene
Black, Hal L.
Nelson, O. Lynne
Robbins, Charles T.
Donahue, Seth W.

December 2009

Disuse typically causes an imbalance in bone formation and bone resorption, leading to losses of cor...

Bone formation is not impaired by hibernation (disuse) in black bears Ursus americanus

Donahue, Seth W.
Vaughan, Michael R.
Demers, Laurence M.
Donahue, Henry J.

December 2003

Disuse by bed rest, limb immobilization or space flight causes rapid bone loss by arresting bone for...

Mammalian hibernation as a model of disuse osteoporosis: The effects of physical inactivity on bone metabolism, structure, and strength

McGee-Lawrence, Meghan E.
Carey, Hannah V.
Donahue, Seth W.

December 2008

Reduced skeletal loading typically leads to bone loss because bone formation and bone resorption bec...

Bone Strength is Maintained After 8 Months of Inactivity in Hibernating Goldenmantled Ground Squirrels, Spermophilus Lateralis

Utz, Jenifer C
Nelson, Stacy
OToole, Brendan
van Breukelen, Frank

August 2009

Prolonged inactivity leads to disuse atrophy, a loss of muscle and bone mass. Hibernating mammals ar...

Bending properties, porosity, and ash fraction of black bear (Ursus americanus) cortical bone are not compromised with aging despite annual periods of disuse

Harvey, Kristin B.
Donahue, Seth W.

October 2004

In many species, including humans, disuse causes an imbalance in bone remodeling that leads to incre...

The tensile strength of black bear (Ursus americanus) cortical bone is not compromised with aging despite annual periods of hibernation

Harvey, Kristin B.
Drummer, Thomas D.
Donahue, Seth W.

November 2005

Black bears (Ursus americanus) may not develop disuse osteoporosis during long periods of disuse (i....

Hibernating bears as a model for preventing disuse osteoporosis

Donahue, Seth W.
McGee, Meghan E.
Harvey, Kristin B.
Vaughan, Michael R.
Robbins, Charles T.

August 2006

The hibernating bear is an excellent model for disuse osteoporosis in humans because it is a natural...

Elucidating the Mechanism for Maintaining Eucalcemia Despite Immobility and Anuria in the Hibernating Black Bear (Ursus americanus)

Seger, Rita Logan

December 2008

Mechanical strain is an essential anabolic stimulus for bone. Skeletal unloading causes rapid, marke...

Black bear femoral porosity decreases and mechanical properties increase with age despite annual periods of disuse (hibernation)

McGee, Meghan E.
Magic, Keith W.
Miller, Danielle L.
Maki, Aaron J.
Donahue, Seth W.

August 2007

Inactivity causes bone loss, and a remobilization period that is 2-3 times longer than the disuse pe...

Polar bears (Ursus maritimus), the most evolutionary advanced hibernators, avoid significant bone loss during hibernation

Lennox, Alanda R.
Goodship, Allen Edward

January 2008

Some hibernating animals are known to reduce muscle and bone loss associated with mechanical unloadi...

Yellow-bellied Marmots (Marmota flaviventris) preserve bone strength and microstructure during hibernation

Abstract

Extracted data

Yellow-bellied Marmots (Marmota flaviventris) preserve bone strength and microstructure during hibernation

Abstract

Extracted data

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