@lightwayves Yes, took about 18 months to regain pretty much my pre-launch bone density. Weightlessness is just too easy - use it or lose it :) Worth reading: https://t.co/aLHDDE2bKo
About a year of recovery restores by 50% https://t.co/QRRtVcOeh8
RT @humanOS_me: During space missions lasting 6 months or more, astronauts may experience bone loss equivalent to two decades of aging. A…
RT @humanOS_me: During space missions lasting 6 months or more, astronauts may experience bone loss equivalent to two decades of aging. A…
@Sulakyeryerlisi Açıklamayı yapan bilimadamı Kanadalı, yoksa çalışmayı yapanlar arasında Amerikalı ve Alman da var. https://t.co/UgZAh1LFeH
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight https://t.co/cRufYiLfPl
RT @1sa6e11e: “Microgravity induces irreversible damage to bone strength, density, and trabecular bone microarchitecture. While bone partia…
This UCalgary led international study quantifies microgravity's long-term effects on bone density. Spending longer than 6 months in space takes more than a year to recover! Finding a solution to this problem would generalize to regular medicine, too.
RT @1sa6e11e: “Microgravity induces irreversible damage to bone strength, density, and trabecular bone microarchitecture. While bone partia…
“Microgravity induces irreversible damage to bone strength, density, and trabecular bone microarchitecture. While bone partially recovers after spaceflight, sustained losses represent at least a decade of normal age-related bone loss.” #spacehealth https:/
4.) — just like muscles, if weight-bearing bones are not used, such as during a long, low-gravity stint in space, they can be weakened irreversibly. Article https://t.co/VGKmgJXC9R Study https://t.co/2oNl2uNdM1
Wanna age decades in a flash: go to space Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight — A decade or more of terrestrial age-related bone loss https://t.co/lfj
RT @agingdoc1: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dura…
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight https://t.co/QGEmwJyucV
#Space travel speeds up aging, weakening of bones @SciReports https://t.co/0IOTpb7rL2 https://t.co/lLgOQiQjyQ
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight | Scientific Reports https://t.co/zqftcnB6nw
📕宇宙での運動。強度が骨合成に重要かも https://t.co/vpqR7nU6Ci 宇宙飛行中にデッドリフトの回数を増やすことが、骨減少の抑制に役立つ可能性のあることが明らかになりました❗️なぜデッドリフトだけ?という部分を骨代謝の仕組みから考えてみました、是非ご覧ください😲✨ https://t.co/xceCBi1ilp
✏️宇宙飛行中にデッドリフトの回数を増やすことが、トレッドミルやエルゴに比較して骨減少の抑制に役立つ可能性のあることが明らかになりました❗️まず宇宙での運動ってどうやるのでしょう?勉強しフル抄読します😲 🔗https://t.co/xceCBiiTJZ ↓本日のフル抄読はこちら🔥 https://t.co/GQkCFfwoUs https://t.co/VcyOW2YiWX
Astronauts 9 of 17 did not fully recover tibia total BMD after 12mths 😐 Dashed line > 6mth Solid line < 6mth missions F.Load = failure load Tt.BMD = total bone mineral density @NaturePortfolio https://t.co/eismJEYhih https://t.co/32wNOTInHP
RT @humanOS_me: During space missions lasting 6 months or more, astronauts may experience bone loss equivalent to two decades of aging. A…
RT @humanOS_me: During space missions lasting 6 months or more, astronauts may experience bone loss equivalent to two decades of aging. A…
During space missions lasting 6 months or more, astronauts may experience bone loss equivalent to two decades of aging. A year spent in Earth's gravity does not fully recover this drop in bone density. https://t.co/Agcze0IfBy
RT @NaturePortfolio: Astronauts who have returned after spaceflights over three months may show signs of incomplete bone recovery, but addi…
In LEO, long term skeletal health has been considered at low risk. However, a recent study based on 17 male astronauts shows incomplete recovery of bone strength/density/trabecular microarchitecture commensurate with a >10yrs age-related bone loss. #NAS
May need a centrifuge on Mars to avoid bone loss "Study findings suggest incomplete recovery of bone strength, density, and trabecular microarchitecture at the weight-bearing tibia, commensurate with a decade or more of terrestrial age-related bone loss."
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @AusWeltall: Wie @SciReports berichtet, schädigt der längere Aufenthalt im #All die Knochen mehr als erwartet. Es wird also eine große H…
Wie @SciReports berichtet, schädigt der längere Aufenthalt im #All die Knochen mehr als erwartet. Es wird also eine große Herausforderung für die #Crew der ersten bemannten #MarsMission dem entgegen zu wirken! https://t.co/V8I6Fogk1V
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
RT @Space_meds: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long dur…
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight. #spacemedicine #boneloss #microgravity #astronauthealth #rehabilitation https://t.co/aez7XvJ2yS
RT @nick_krontiris: Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long…
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight (open access) https://t.co/rj31otEUSc
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight https://t.co/F4K1GM89ZB
RT @NatureJapan: 宇宙での健康:筋肉に抵抗を与える運動が宇宙飛行中の骨減少の抑制に役立つ可能性 注目のハイライト | Scientific Reports https://t.co/vYyYdOKyjV
宇宙での健康:筋肉に抵抗を与える運動が宇宙飛行中の骨減少の抑制に役立つ可能性 | Scientific Reports | Nature Portfolio https://t.co/HWUJzlfV4D
(2022/06/30) Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight | Scientific Reports https://t.co/nt0hpgEqZP
RT @ShigekiKanamori: 【骨粗鬆症】 宇宙の半年は地球の10年分の加齢骨損失 寝たきりだと骨粗鬆症になる 骨代謝回転は 破骨細胞で骨吸収 骨芽細胞で骨形成される なぜ? 骨は重力のピエゾ効果で発生する電気で骨芽細胞が刺激され再生するから 過去ツイ 太…
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight (やはり無重力だと骨が…) https://t.co/UXQAxcTzUv
RT @orpelas: 無重力がピエゾ効果で骨粗鬆症になり太陽フレアが逆ピエゾ効果で地震の原因。全然関係ないですがあんまりバイクに乗ってると骨粗鬆症になりそうですね😭
無重力がピエゾ効果で骨粗鬆症になり太陽フレアが逆ピエゾ効果で地震の原因。全然関係ないですがあんまりバイクに乗ってると骨粗鬆症になりそうですね😭
RT @OneMarkGLG: @atsuji_yamamoto それって、先月末に発表された、この件ですか? https://t.co/JRDhrR9DXY
RT @ShigekiKanamori: 【骨粗鬆症】 宇宙の半年は地球の10年分の加齢骨損失 寝たきりだと骨粗鬆症になる 骨代謝回転は 破骨細胞で骨吸収 骨芽細胞で骨形成される なぜ? 骨は重力のピエゾ効果で発生する電気で骨芽細胞が刺激され再生するから 過去ツイ 太…
RT @ShigekiKanamori: 【骨粗鬆症】 宇宙の半年は地球の10年分の加齢骨損失 寝たきりだと骨粗鬆症になる 骨代謝回転は 破骨細胞で骨吸収 骨芽細胞で骨形成される なぜ? 骨は重力のピエゾ効果で発生する電気で骨芽細胞が刺激され再生するから 過去ツイ 太…
【骨粗鬆症】 宇宙の半年は地球の10年分の加齢骨損失 寝たきりだと骨粗鬆症になる 骨代謝回転は 破骨細胞で骨吸収 骨芽細胞で骨形成される なぜ? 骨は重力のピエゾ効果で発生する電気で骨芽細胞が刺激され再生するから 過去ツイ 太陽フレアが地震を起こすのは逆ピエゾ https://t.co/Oux3hCuC10
RT @OneMarkGLG: @atsuji_yamamoto それって、先月末に発表された、この件ですか? https://t.co/JRDhrR9DXY
About bone loss due to spaceflight. What about the long-duration mission like mission to #Mars ! https://t.co/RqwXPzEr8P #Space #spaceexploration #medicine
@atsuji_yamamoto それって、先月末に発表された、この件ですか? https://t.co/JRDhrR9DXY
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight https://t.co/MjMo5q6u3f
(INFOGRAFICO) Viajar al espacio provoca la pérdida de masa ósea a los astronautas (1% cada mes) 1) https://t.co/EjO0t7H611 2) https://t.co/cN9tEDoZD0 3) https://t.co/s1AefmNKPQ 4) https://t.co/HXLnGvl5Nc 5) https://t.co/bIRIOl7hw9 6) https://t.co/pHeGjlQh
The paper in "Nature, Scientific Reports" the above "ABC News" story is based upon, & mentions: “Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight” https://t.c
RT @King_Mix_Papper: Durante las misiones espaciales que duraron 6 meses a más, los astronautas pueden experimentar una perdida ósea que eq…
Durante las misiones espaciales que duraron 6 meses a más, los astronautas pueden experimentar una perdida ósea que equivale a una década o más de envejecimiento (https://t.co/xlqQhXpXTG) https://t.co/DvFPDPdMCx
RT @fcain: Many astronauts never recover their bone density after returning to Earth - https://t.co/3XMCHGN0RX https://t.co/7kpWAmgQfz
RT @fcain: Many astronauts never recover their bone density after returning to Earth - https://t.co/3XMCHGN0RX https://t.co/7kpWAmgQfz
RT @fcain: Many astronauts never recover their bone density after returning to Earth - https://t.co/3XMCHGN0RX https://t.co/7kpWAmgQfz
"...the current study found that increases in in-flight deadlift training volume identified astronauts who recovered tibia BMD" https://t.co/5ug6BVwgXk
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight | Scientific Reports https://t.co/fpjm2QJr4i
RT @fcain: Many astronauts never recover their bone density after returning to Earth - https://t.co/3XMCHGN0RX https://t.co/7kpWAmgQfz
宇宙での健康:筋肉に抵抗を与える運動が宇宙飛行中の骨減少の抑制に役立つ可能性 | Scientific Reports | Nature Portfolio - Nature Asia https://t.co/ku2x8rDuQu @GoogleNewsより
I'm cancelling my trip to Mars. https://t.co/JGVzMKFZMi
RT @fcain: Many astronauts never recover their bone density after returning to Earth - https://t.co/3XMCHGN0RX https://t.co/7kpWAmgQfz
Many astronauts never recover their bone density after returning to Earth - https://t.co/3XMCHGN0RX https://t.co/7kpWAmgQfz
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight | Scientific Reports https://t.co/zqftcnB6nw
5. Read the study here: https://t.co/KTSpkeJMWR
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
Loss of bone density in #Space due to lack of #gravity is difficult to recover, presenting problems for trips to #Mars. https://t.co/EeQ63adCFX
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
RT @hsss_sa: دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
دراسة جديدة تكشف التأثير المدمر على عظام رواد الفضاء من العيش في الفضاء . https://t.co/fJm8emhBdX https://t.co/UAJHYLZ6Ek
宇宙での健康:筋肉に抵抗を与える運動が宇宙飛行中の骨減少の抑制に役立つ可能性 注目のハイライト | Scientific Reports https://t.co/vYyYdOKyjV
宇宙での健康:筋肉に抵抗を与える運動が宇宙飛行中の骨減少の抑制に役立つ可能性 (Nature Research) https://t.co/kW6aGeLFpI
RT @NatureAsia: Space health: The path of most resistance could help limit bone loss during spaceflight Research highlight | Scientific Re…
The path of most resistance could help limit bone loss during spaceflight More on https://t.co/44kiGeHEjQ https://t.co/SkGqwE0FuR
Space health: The path of most resistance could help limit bone loss during spaceflight Research highlight | Scientific Reports https://t.co/J3MaxWvvbb
Incomplete recovery of bone strength and trabecular microarchitecture at the distal tibia 1 year after return from long duration spaceflight https://t.co/QGEmwJyucV
RT @NaturePortfolio: Astronauts who have returned after spaceflights over three months may show signs of incomplete bone recovery, but addi…
Astronauts who have returned after spaceflights over three months may show signs of incomplete bone recovery, but adding in more resistance-based exercises during spaceflight may help limit bone loss, according to a @SciReports paper. https://t.co/ladoMTMo
RT @fedkukso: Publicada en Scientific Reports, la investigación de alguna manera pincha los sueños de viajes espaciales largos. https://t.c…
Publicada en Scientific Reports, la investigación de alguna manera pincha los sueños de viajes espaciales largos. https://t.co/eD5PCLhgC7
Lost in space: #Astronauts struggle to regain #bonedensity @SciReports https://t.co/0IOTpb7rL2 https://t.co/mzg7XmfOlw