Bone Mineral Accrual in Physically Active Girls. With Special Reference to Reduction in Physical Activity Level and Use of Oral Contraceptives

Adolescence is an important time for acquiring high peak bone mass. Physical activity is known to be beneficial to bone development. The effect of estrogen-progestin contraceptives (EPC) is still controversial. Altogether 142 (52 gymnasts, 46 runners, and 42 controls) adolescent women participated in this study, which is based on two 7-year (n =142), one 6-year (n =140) and one 4-year (n =122) follow-ups. Information on physical activity, menstrual history, sexual maturation, nutrition, living habits and health status was obtained through questionnaires and interviews. The bone mineral density (BMD) and content (BMC) of lumbar spine (LS) and femoral neck (FN) were measured by dual- energy X-ray absoptiometry. Calcaneal sonographic measurements were also made. The physical activity of the athletes participating in this study decreased after 3-year follow-up. High-impact exercise was beneficial to bones. LS and FN BMC was higher in gymnasts than in controls during the follow-up. Reduction in physical activity had negative effects on bone mass. LS and FN BMC increased less in the group having reduced their physical activity more than 50%, compared with those continuing at the previous level (1.69 g, p=0.021; 0.14 g, p=0.015, respectively). The amount of physical activity was the only significant parameter accounting for the calcaneal sonography measurements at 6-year follow-up (11.3%) and reduced activity level was associated with lower sonographic values. Long-term low-dose EPC use seemed to prevent normal bone mass acquisition. There was a significant trend towards a smaller increase in LS and FN BMC among long-term EPC users. In conclusion, this study confirms that high-impact exercise is beneficial to bones and that the benefits are partly maintained even after a clear reduction in training level at least for 4 years. Continued exercise is needed to retain all acquired benefits. The bone mass gained and maintained can possibly be maximized in adolescence by implementing high-impact exercise for youngsters. The peak bone mass of the young women participating in the study may be reached before the age of 20. Use of low-dose EPCs seems to suppress normal bone mass acquisition.

Tartrate-Resistant Acid Phosphatase 5b: a Serum Marker of Bone Resorption

Bone is a physiologically dynamic tissue being constantly regenerated throughout life as a consequence of bone turnover by bone-resorbing osteoclasts and bone-forming osteoblasts. In certain bone diseases, such as osteoporosis, the imbalance in bone turnover leads to bone loss and increased fracture risk. Measurement of bone mineral density (BMD) predicts the risk of fracture, but also biochemical markers of bone metabolism have been suggested to be suitable for prediction of fractures and monitoring the efficacy of antiresorptive treatment. Tartrate-resistant acid phosphatase 5b (TRACP 5b) is an enzyme released from osteoclasts into the circulation, from where it can be detected kinetically or immunologically. Conventional assays for serum total TRACP were spectrophotometric and suffered from interference by other acid phosphatases and non-osteoclastic TRACP 5a isoform. Our aim was to develop novel immunoassays for osteoclastic TRACP 5b. Serum TRACP 5b levels were elevated in individuals with high bone turnover, such as children, postmenopausal women, patients with osteoporosis, Paget’s disease and breast cancer patients with bone metastases. As expected, hormone replacement therapy (HRT) in postmenopausal women decreased the levels of serum TRACP 5b. Surprisingly, the highest TRACP 5b levels were observed in individuals with rare autosomal dominant osteopetrosis type II (ADO2), which is characterized by high BMD and fracture risk with simultaneously elevated levels of deficient osteoclasts. In ADO2 patients, elevated levels of serum TRACP 5b were associated with high fracture frequency. It is likely that serum TRACP 5b reflects the number of inactive osteoclasts in ADO2. Similar results supporting the hypothesis that TRACP 5b would reflect the number of osteoclasts instead of their activity were observed with cultured osteoclasts and in animal models. Novel TRACP 5b immunoassays may prove to be of value either as independent or combinatory tools with other bone metabolic markers and BMD measurements in clinical practice and bone research.

Bone Health, Osteoporosis and Fracture Risk in Neurofibromatosis 1 - An Emphasis on Osteoclasts

Neurofibromatosis 1 (NF1) is an autosomal dominant hereditary syndrome, affecting skin, neural tissues and skeleton. Hallmarks of NF1 include benign cutaneous neurofibroma tumors, pigmentation lesions on the skin and in the iris, learning disabilities and predisposition to selected malignancies. Low bone mineral density (BMD) and osteopenia/osteoporosis are common in NF1. Osteoporosis is a systemic disorder characterized by low bone mineral density and increased fracture risk. Treatment of osteoporosis aims to prevent falls and decrease fracture risk. Osteoporosis is diagnosed in adults by measuring BMD and evaluating clinical risk factors of the patient. Bone turnover is a process of old bone resorbed by osteoclasts and new bone formed by osteoblasts. Multinuclear osteoclasts are derived from osteoclast progenitors, which can be isolated from peripheral blood. Osteoclast progenitors were isolated from 17 NF1 patients and healthy controls, and cultured in vitro to osteoclasts. NF1 osteoclasts are hyperactive, displaying increased differentiation and resorption capacity, abnormal morphology and tolerance to serum deprivation compared to control osteoclasts. These findings expanded the study to evaluate the effects of bisphosphonates, drugs designed to treat osteoporosis, in osteoclasts derived from blood samples of 20 NF1 and control persons. The number of control osteoclasts was expectedly reduced after bisphosphonate treatment. However, NF1 osteoclasts tolerated the apoptotic effect of alendronate, zoledronic acid and clodronate in vitro compared to controls. NF1-related osteoporosis was found in ~20 % of the patients, and selected laboratory parameters were measured. Patients with NF1 have increased levels of serum CTX and PINP, reflecting increased bone turnover in vivo. BMD decreases progressively in NF1 as evaluated in 19 NF1 patients 12 years after their initial BMD measurement. Patients with NF1-related osteopenia often progress to osteoporosis. This was found in patients aged 37-76.

Flexible multibody approach in bone strain estimation during physical activity:

Bone strain plays a major role as the activation signal for the bone (re)modeling process, which is vital for keeping bones healthy. Maintaining high bone mineral density reduces the chances of fracture in the event of an accident. Numerous studies have shown that bones can be strengthened with physical exercise. Several hypotheses have asserted that a stronger osteogenic (bone producing) effect results from dynamic exercise than from static exercise. These previous studies are based on short-term empirical research, which provide the motivation for justifying the experimental results with a solid mathematical background. The computer simulation techniques utilized in this work allow for non-invasive bone strain estimation during physical activity at any bone site within the human skeleton. All models presented in the study are threedimensional and actuated by muscle models to replicate the real conditions accurately. The objective of this work is to determine and present loading-induced bone strain values resulting from physical activity. It includes a comparison of strain resulting from four different gym exercises (knee flexion, knee extension, leg press, and squat) and walking, with the results reported for walking and jogging obtained from in-vivo measurements described in the literature. The objective is realized primarily by carrying out flexible multibody dynamics computer simulations. The dissertation combines the knowledge of finite element analysis and multibody simulations with experimental data and information available from medical field literature. Measured subject-specific motion data was coupled with forward dynamics simulation to provide natural skeletal movement. Bone geometries were defined using a reverse engineering approach based on medical imaging techniques. Both computed tomography and magnetic resonance imaging were utilized to explore modeling differences. The predicted tibia bone strains during walking show good agreement with invivo studies found in the literature. Strain measurements were not available for gym exercises; therefore, the strain results could not be validated. However, the values seem reasonable when compared to available walking and running invivo strain measurements. The results can be used for exercise equipment design aimed at strengthening the bones as well as the muscles during workout. Clinical applications in post fracture recovery exercising programs could also be the target. In addition, the methodology introduced in this study, can be applied to investigate the effect of weightlessness on astronauts, who often suffer bone loss after long time spent in the outer space.

Potential of the Osteoclast’s Proton Pump as a Drug Target in Osteoporosis

Decreasing bone mass during aging predisposes to fractures and it is estimated that every second woman and one in five men will suffer osteoporotic fractures during their lifetime. Bone is an adaptive tissue undergoing continuous remodeling in response to physical and metabolic stimuli. Bone mass decreases through a net negative balance in the bone remodeling process of bone, in which the new bone incompletely replaces the resorbed bone mass. Bone resorption is carried out by the osteoclasts; the bone mineral is solubilized by acidification and the organic matrix is subsequently degraded by proteases. Several classes of drugs are available for prevention of osteoporotic fractures. They act by different mechanisms to increase bone mass, and some of them act mainly as antiresorptives by inhibition of osteoclast formation or their function. Optimally, a drug should act selectively on a specific process, since other processes affected usually result in adverse effects. The purpose of this study was to evaluate whether the osteoclastic vacuolar adenosine trisphosphatases (V-ATPase), which drives the solubilization of bone mineral, can be selectively inhibited despite its ubiquitous cellular functions. The V-ATPase is a multimeric protein composed of 13 subunits of which six possesses two or more isoforms. Selectivity for the osteoclastic V-ATPase could be provided if it has some structural uniqueness, such as a unique isoform combination. The a3 isoform of the 116kDa subunit is inevitable for bone resorption; however, it is also present in, and mainly limited to, the lysosomes of other cells. No evidence of a structural uniqueness of the osteoclastic V-ATPase compared to the lysosomal V-ATPase was found, although this can not yet be excluded. Thus, an inhibitor selective for the a3 isoform would target the lysosomal V-ATPase as well. However, the results suggest that selectivity for bone resorption over lysosomal function can be obtained by two other mechanisms, suggesting that isoform a3 is a valid target. The first is differential compensation; bone resorption depends on the high level of a3 expression, and is not compensated for by other isoforms, while the lower level of a3 in lysosomes of other cells may be partly compensated for. The second mechanism is because the bone resorption process itself is fundamentally different from lysosomal acidification because of the chemistry of bone dissolution and the anatomy of the resorbing osteoclast. By this mechanism, full inhibition of bone resorption is obtained with more than tenfold lower inhibitor concentration than those needed to fully inhibit lysosomal acidification. The two mechanisms are additive. Based on the results, we suggest that bone resorption can be selectively inhibited if VATPase inhibitors that are sufficiently selective for the a3 isoform over the other isoforms are developed.

Uusintamurtumien ehkäisy kaatumisen aiheuttaman yläraajamurtuman kokeneilla yli 50-vuotiailla henkilöillä

Tarkoitus: Tarkoituksena oli selvittää murtumien tehostetun ehkäisyohjelman vaikutuksia yläraajamurtuman saaneiden yli 50-vuotiaiden henkilöiden elämäntapoihin, murtumien riskitekijöihin, kaatumisiin, kaatumisvammoihin ja elämänlaatuun. Aineisto: 219 yli 50-vuotiasta kotona asuvaa, kaatumisen seurauksena yläraajamurtuman saanutta henkilöä satunnaistettiin koe- (n = 105) ja kontrolliryhmiin (n = 114). Menetelmä: Koeohjelma sisälsi yksilöllisen, yhdessä lääkärin, terveydenhoitajan ja tutkittavan kanssa laaditun hoito- ja kuntoutussuunnitelman sekä kutsun murtumien ehkäisyn koulutusohjelmaan. Kontrolliryhmän tutkittavat saivat kehotuksen hakeutua murtumahoitajan ohjaukseen. Seuranta-aika oli 14 kuukautta. Tulokset analysoitiin ryhmissä tapahtuneina muutoksina alkuja loppumittausten välillä sekä ryhmien välisenä erona muutoksissa. Tulokset: Keskimääräinen luun tiheys lannerangassa lisääntyi koeryhmässä (p<0,001) ja kontrolliryhmässä (p = 0,038), ryhmien välinen ero ei ollut tilastollisesti merkitsevä (p = 0,134). Reisiluun kaulassa luun tiheys ei muuttunut kummassakaan ryhmässä. Päivittäinen kalsiumin saanti lisääntyi koeryhmässä keskimäärin 167 mg (p<0,001) ja kontrolliryhmässä 30 mg (p = 0,475), ryhmien välinen ero oli tilastollisesti merkitsevä (p = 0,031). Kala-ateriat ja päivittäinen D-vitamiinilisä sekä kenkien liukuesteiden säännöllinen käyttö liukkaalla lisääntyivät molemmissa ryhmissä, mutta ryhmien välillä ei ollut eroa. Viiteen tuolilta nousukertaan käytetty aika vähentyi koeryhmässä keskimäärin 0,49 sekuntia (p = 0,185) ja lisääntyi kontrolliryhmässä 0,39 (p = 0,475), ero ryhmien välillä oli tilastollisesti merkitsevä (p = 0,02). Kymmenen metrin kävelyssä ei tapahtunut tulosten keskiarvossa muutoksia kummassakaan ryhmässä. Ortostatismi vähentyi kontrolliryhmässä (p = 0,049), ja masentuneisuus vähentyi koeryhmässä (p = 0,041), mutta ryhmien välillä ei näissä ollut merkitsevää eroa. Osteoporoosilääkkeiden käyttö lisääntyi molemmissa ryhmissä, ryhmien välillä ei ollut eroa. Alkoholin käytössä oli vähäisiä mutta ei merkittäviä muutoksia. Muissa testatuissa muuttujissa, kuten liikunnan viikoittainen määrä, tupakointi, näkökyky, tasapaino ja elämänlaatu, ei ollut merkitseviä muutoksia ryhmissä tai ryhmien välillä. Kaatumisten (koeryhmä 33, kontrolliryhmä 35) ja murtumien (koeryhmä 5 ja kontrolliryhmä 3) määrissä ei myöskään ollut merkitseviä eroja ryhmien välillä. Johtopäätökset: Noin neljällä viidestä kaatumisen seurauksena yläraajamurtuman saaneista, yli 50 vuotta täyttäneistä henkilöistä oli alentunut luun tiheys, ja noin joka toisella oli lisääntynyt kaatumisriski. Kaatumisen riskitekijöiden kliiniset mittaukset olivat nopeita toteuttaa ja auttoivat ehkäisytoimenpiteiden suunnittelussa. Murtuman saaneet olivat motivoituneita murtumien riskitekijöiden selvittämiseen ja myös toteuttamaan annettua lääkehoitoa. Elämäntavoissa helpoimmin toteutuivat muutokset ruokailutottumuksissa. Liikuntatottumuksien muuttaminen sen sijaan onnistui melko huonosti. Ryhmien välillä oli merkitsevä ero ainoastaan kalsiumin päivittäisessä käytössä ja tuolilta nousutestissä. Murtumariskien tunnistaminen, niiden syiden selvittäminen ja toimenpiteiden käynnistäminen riskien vähentämiseksi tulisi kuulua jokaisen pienienergisen murtuman saaneen potilaan kokonaisvaltaiseen hyvään hoitoon.