1,721,098 research outputs found
Botāniskā dārza sekciju "Augu daudzveidības pētījumi ex situ" un "Augu selekcija un introdukcija" tēžu krājums (2020. gada 30. janvāris, LU Botāniskais dārzs)
No full textLatvijas Universitātes 78. starptautiskā zinātniskā konference LU Botāniskajā dārzā notiek 2020. gada 30. janvārī. Krājumā ir 13 ziņojumu kopsavilkumi: pieci kopsavilkumi LU prioritārās tēmas "Ekoloģija un bioloģiskā daudzveidība" apakštēmas/sekcijas "Augu daudzveidības pētījumi ex situ" un astoņi kopsavilkumi sekcijas "Augu selekcija un introdukcija" ziņojumiem.LU bāzes un snieguma finansējums
Baltic Botanic Gardens: Tourist Guide
No full textThe edition contains information about nine botanical gardens of Latvia, Lithuania and Estonia.These are places where to see the world's plant diversity, to become acquainted with threatened plants, gardening and to relax in nature's lap. Practical guide of the botanical gardens are provided
Baltic Botanic Gardens in 2009-2010: Estonia, Latvia and Lithuania
No full textThe periodical issue of Baltic Botanic Gardens includes information
about the main events in the botanical gardens of Estonia, Latvia and
Lithuania in 2009-2010. It contains statistical information about the
gardens and eight articles about the collections, research and public
activities of the botanical gardens
“Augu selekcija un introdukcija”: Botāniskā dārza sekcija : Referātu tēzes, 2024. gada 8. februāris
No full textBotāniskā dārza sekciju "Augu daudzveidības pētījumi ex situ", "Augu selekcija un introdukcija" tēžu krājums (2017. gada 9. februāris, LU Botāniskais dārzs)
No full textLatvijas Universitātes 75. konferences Augu daudzveidības pētījumi ex situ un Augu selekcijas un introdukcijas sekcijas sēdes notiek 2017. gada 9. februārī, plkst. 13.00 LU Botāniskajā dārzā Kandavas ielā 2, Rīgā
Botāniskā dārza sekciju "Augu daudzveidības pētījumi ex situ" un "Augu selekcija un introdukcija" tēžu krājums (2019. gada 7. februāris, LU Botāniskais dārzs)
No full textLatvijas Universitātes 77. konferences "Augu daudzveidības pētījumi ex situ" un "Augu selekcijas un introdukcijas"
sekcijas sēdes notiek 2019. gada 7. februārī, plkst. 13.00 LU Botāniskajā dārzā Kandavas ielā 2, Rīgā
Botāniskā dārza sekcijas “Augu daudzveidības pētījumi ex situ” un “Augu selekcija un introdukcija” tēžu krājums
Full text linkLatvijas Universitātes 80. starptautiskās zinātniskās konferences Botāniskā dārza sekcijas “Augu daudzveidības pētījumi ex situ” un “Augu selekcija un introdukcija” referāti tika nolasīti 2022. gada 1. februārī plkst. 13:00 tiešsaistē
Botāniskā dārza sekcijas “Augu selekcija un introdukcija” tēžu krājums
Full text linkLatvijas Universitātes 81. starptautiskās zinātniskās konferences Botāniskā dārza sekcijas “Augu selekcija un introdukcija” sanāksme notika 2023. gada 8. februārī pulksten 13.00 LU Botāniskā dārza Lektorijā Kandavas ielā 2, Rīgā. Tēžu krājumā ir 12 referātu kopsavilkumi, kuros ir ziņots par augu kolekcijām, augu introdukciju, selekciju, augu patogēnu pētījumiem, mikropavairošanas izmēģinājumiem, kā arī purvu biotopu saglabāšanu
Baltic Botanic Gardens in 2007-2008: Estonia, Latvia and Lithuania
No full textThe periodical issue of Baltic Botanic Gardens includes information
about main events in the Botanical Gardens in Estonia, Latvia and
Lithuania in 2007 – 2008. It contains 15 scientific articles about
collections of Botanical Gardens
Maksimālais spēka treniņš krūts vēža pacientēm adjuvantas terapijas laikā. Promocijas darbs
No full textThe Doctoral Thesis was developed at the Oncology Center of Latvia, Department of Breast Surgery and at the Department of Rehabilitation, Rīga Stradiņš University, Latvia. Defence: at the public session of the Promotion Council of Health and Sports Sciences on 11th August at 14.00 remotely via online platform Zoom.Objective. Breast cancer (BC) is the most frequently diagnosed type of cancer among women, with more than 2 million new cases and over 600 000 deaths annually (Bray et al., 2018), and its global incidence is steadily rising. BC patients through the cancer continuum experience complex health and psychosocial challenges. BC and anti-cancer treatment accompanied by an inactive lifestyle may further impair muscle strength and muscle force development characteristics. Historically, patients diagnosed with cancer were advises to rest and avoid vigorous activity following their diagnosis, but this dogma has changed markedly over the last 20 years as exercise oncology intervention studies have gained broad acceptance and acknowledgment. Strength training can optimally affect muscles and increased muscle strength may contribute to participation in daily activities, thus potentially improving the health-related quality of life (HRQoL). However, the optimal type, intensity and frequency of strength training, as a part of cancer care, that will most enhance muscle strength during anti-cancer treatment is yet unknown. Christensen et al. (Christensen et al., 2014) investigated newly confirmed (breast, gastric, colorectal, lung and pancreas) cancer patients and concluded that these patients had 0.9 kg lower muscle mass compared with healthy controls even before the initiation of anti-cancer treatment. Furthermore, during adjuvant chemotherapy, BC patients lost 1.3 kg lean body mass (LBM), and continued to lose LBM after therapy was completed. Ultimately, BC survivors evaluated after completion of primary therapy displayed 20–30% lower muscle strength compared with healthy counterparts. Most physical activity interventions for BC patients combine aerobic endurance training with strength training and diverse relaxation therapies, hence making it more complicated to evaluate the impact of training type. There has been a limited number of well-defined clinical trials on BC patients that include higher intensity strength training, moreover when intervention is administered during adjuvant treatment. Training intensities vary substantially across cancer studies ranging from 25–80% of one-repetition maximum (1RM), although, it has been documented that higher training intensities yield greater strength gains in young healthy individuals (Campos et al., 2002). Similarly, greater gains in muscle strength are documented with increasing intensity for cancer patients, however, these patients are likely to have some improvement even at low training intensities (Fairman et al., 2017). The common consent from clinical trials when strength training interventions were applied for cancer patients states that training programs were well tolerated, they are safe, feasible and showed strength improvements that led to improved physical functioning and improved HRQoL (Segal et al., 2003), (De Backer et al., 2007), (Battaglini et al., 2014). Recognizing that training intensity during strength training is a key factor to improve maximal muscular strength and strength related characteristics. Therefore, well-defined training methods with high intensity could also be preferable to induce greater physiological adaptations, thus contribute to faster recovery from specific cancer treatment and enhancing the completion of prescribed anti-cancer treatment
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