Linda Mindeholm

Effects of Salmon Calcitonin on Trabecular Microarchitecture as Determined by Magnetic Resonance Imaging: Results From the QUEST Study

The unique noninvasive MRI technique was used to assess trabecular microarchitecture at multiple skeletal sites in 91 postmenopausal osteoporotic women receiving nasal spray salmon calcitonin (CT‐NS) or placebo over 2 years. In the distal radius and lower trochanter of the hip, individuals treated with CT‐NS exhibited significant preservation of trabecular bone microarchitecture compared with placebo, where significant deterioration was shown. MRI analyses of os calcis or μCT/histomorphometric analyses of bone biopsies did not reveal consistent differences in architecture between CT‐NS and placebo.

Salmon calcitonin: a review of current and future therapeutic indications

Salmon calcitonin, available as a therapeutic agent for more than 30 years, demonstrates clinical utility in the treatment of such metabolic bone diseases as osteoporosis and Pagets disease, and potentially in the treatment of osteoarthritis. This review considers the physiology and pharmacology of salmon calcitonin, the evidence based research demonstrating efficacy and safety of this medication in postmenopausal osteoporosis with potentially an effect on bone quality to explain its abilities to reduce the risk of spine fracture, the development of an oral salmon calcitonin preparation, and the therapeutic rationale for this preparations chondroprotective effect in osteoarthritis.

Safety and Efficacy of a Novel Salmon Calcitonin (sCT) Technology‐Based Oral Formulation in Healthy Postmenopausal Women: Acute and 3‐Month Effects on Biomarkers of Bone Turnover

Oral administration of calcitonin could improve compliance to long‐term treatment. Efficacy and safety of a novel oral formulation was assessed on 277 postmenopausal women. The results show (1) effective enteral absorption, (2) marked inhibition of bone resorption with minimal alteration of formation, and (3) reproducibility of responses over 3 months.

Morphea-like skin reactions in patients treated with the cathepsin K inhibitor balicatib

BACKGROUND In a multicenter clinical trial in North America and Europe that tested the cathepsin K (catK) inhibitor balicatib for the treatment of osteoporosis, several patients developed hardening of the skin. OBJECTIVE We sought to characterize these observed adverse events. METHODS Patients with skin hardening were examined by a local dermatologist. All of those patients except one had at least one biopsy specimen taken from affected skin, which was read by local and two central dermatopathologists. Workup was directed for consideration of systemic scleroderma. RESULTS Nine patients of 709 treated with balicatib developed skin hardening and were given a diagnosis of morphea-like skin changes. No such events were observed in patients taking placebo or the lowest balicatib dose. After discontinuation of balicatib, skin changes resolved completely in 8 and partially in one patient. LIMITATIONS Each patient was seen by a different dermatologist in 6 different countries. CONCLUSIONS These observations are likely dose-related adverse effects of balicatib. Although catK was originally thought to be expressed only in osteoclasts, it has more recently also been found in lung and dermal fibroblasts and been implicated in the degradation of the extracellular matrix in the lung and the skin. It is therefore plausible that the observed dermal fibrosis in balicatib-treated patients is a result of impaired degradation of extracellular matrix proteins and may represent a class effect of catK inhibitors. We recommend that further exploration of catK inhibition for the treatment of osteoporosis or cancer should include monitoring for similar adverse effects.

The single dose pharmacokinetic profile of a novel oral human parathyroid hormone formulation in healthy postmenopausal women.

Parathyroid hormone (PTH), currently the only marketed anabolic treatment for osteoporosis, is available as the full-length hormone, human PTH1-84, or as the human PTH1-34 fragment (teriparatide). Both must be administered as a daily subcutaneous (sc) injection. A new oral formulation of human PTH1-34 (PTH134) is being developed as a more convenient option for patients. In this single-center, partially-blinded, incomplete cross-over study, the safety, tolerability, and exposure of oral PTH134 (teriparatide combined with 2 different quantities of the absorption enhancer 5-CNAC) were assessed in 32 healthy postmenopausal women. 16 subjects were randomized to receive 4 single doses out of 6 different treatments: placebo, teriparatide 20 μg sc, or 1, 2.5, 5 or 10 mg of oral PTH134 formulated with 200 mg 5-CNAC. Subsequently, another 16 subjects were randomized to receive 4 out of 6 different treatments: placebo, teriparatide 20 μg sc, or 2.5 or 5 mg of oral PTH134 formulated with either 100 or 200 mg 5-CNAC. Doses were given ≥6 days apart. All doses of PTH134 were rapidly absorbed, and showed robust blood concentrations in a dose-dependent manner. Interestingly, PTH1-34 disappeared from blood faster after oral than after sc administration. Specifically, 2.5 and 5 mg PTH134 (containing 200 mg 5-CNAC) demonstrated Cmax and AUC0-last values closest to those of sc teriparatide 20 μg (Forsteo®). Mean+/-SD hPTH134 Cmax values were, respectively, 74+/-59, 138+/-101, 717+/-496, and 1624+/-1579 pg/mL for 1, 2.5, 5, and 10 mg doses of this peptide administered with 200 mg 5-CNAC; while mean+/-SD AUC (0-last) values were, respectively, 30+/-40, 62+/-69, 320+/-269, and 627+/-633 h*pg/mL. The corresponding estimates for teriparatide 20 μg sc were 149+/-35 for Cmax and 236+/-58 for AUC (0-last) Ionized calcium remained within normal limits in all treatment groups except for 3 isolated events. Nine subjects withdrew due to treatment-related AEs. Of those, seven were taking PTH134 2.5 or 5 mg: three withdrew for symptomatic hypotension (two of whom were in the 200 mg 5-CNAC group), three because of delayed vomiting (two from the 200 mg 5-CNAC group), one was proactively withdrawn by the investigator for symptomatic hypercalcemia (receiving 2.5 mg/100 mg 5-CNAC) at slightly supra-normal total calcium but normal ionized serum calcium levels. One subject receiving teriparatide and one receiving placebo withdrew for symptomatic hypotension. No serious AEs were reported. In conclusion, the study demonstrated potential therapeutically relevant PTH1-34 systemic exposure levels after oral administration of PTH1-34 formulated with the absorption enhancer 5-CNAC. Doses of 2.5 and 5 mg of oral PTH134 achieved exposure levels closest to those of teriparatide 20 μg sc, with a comparable incidence of AEs in healthy postmenopausal women.

AXT914 a novel, orally-active parathyroid hormone-releasing drug in two early studies of healthy volunteers and postmenopausal women

Antagonism of the calcium-sensing receptor in the parathyroid gland leads to parathyroid hormone (PTH) release. Calcilytics are a new class of molecules designed to exploit this mechanism. In order to mimic the known bone-anabolic pharmacokinetic (PK) profile of s.c. administered PTH, such molecules must trigger sharp, transient and robust release of PTH. The results of two early clinical studies with the orally-active calcilytic AXT914, a quinazolin-2ne derivative are reported. These were GCP-compliant, single and multiple dose studies of PK/PD and tolerability in healthy volunteers and postmenopausal women. The first study, examined single ascending doses (4 to 120 mg) and limited multiple doses (60 or 120 mgq.d. for 12 days) of AXT914. The second study was a randomized, double-blind, active- and placebo-controlled, 4-week repeat-dose parallel group study of healthy postmenopausal women (45 and 60 mg AXT914, placebo, 20 μg Forteo/teriparatide/PTH(1-34) fragment). AXT914 was well tolerated at all doses and reproducibly induced the desired PTH-release profiles. Yet, 4 weeks of 45 or 60 mg AXT914 did not result in the expected changes in circulating bone biomarkers seen with teriparatide. However total serum calcium levels increased above baseline in the 45 and 60 mg AXT914 treatment groups (8.0% and 10.7%, respectively), compared to that in the teriparatide and placebo groups (1.3% and 1.0%, respectively). Thus the trial was terminated after a planned interim analysis due to lack of effect on bone formation biomarkers and dose-limiting effects on serum calcium. In conclusion, AXT914 was well tolerated but the observed transient and reproducible PTH-release after repeat oral administration of AXT914 which showed an exposure profile close to that of s c. PTH, did not translate into a bone anabolic response and was associated with a persistent dose-related increase in serum calcium concentrations.

ASSESSMENT OF BONE QUALITY, QUANTITY, AND TURNOVER WITH MULTIPLE METHODOLOGIES AT MULTIPLE SKELETAL SITES

The risk for osteoporotic fracture, and presumably the therapeutic prevention of such risk by osteoporosis therapies, is determined primarily by the parameters of bone quality (principally trabecular architecture and strength), bone quantity (bone mineral density), and bone turnover (markers of bone resorption such as pyridinolines and telopeptides). Other contributors are age, bone geometry (particularly of the femoral neck), and (extrinsic to the skeleton) falls. It is unclear as to the relative contributions of each of the intrinsic parameters to fracture risk, and particularly to the therapeutic prevention of such risk. Recent evidence1indicates that the therapeutic prevention of fracture is mediated to only a small extent by changes in quality; and there is a growing consensus that changes in turnover2 are equally important to changes in quantity to fracture reduction following osteoporosis therapies. The comparatively new hypothesis is that therapeutic prevention of osteoporotic fracture may be equally due to preservation or improvements in bone quality (trabecular architecture, strength, and material properties), based upon recent data with both raloxifene3 and salmon-calcitonin4 in which significant reduction in vertebral fracture is associated with only modest effects on bone quantity and turnover.

The Cathepsin K Inhibitor AAE581 Induces Morphological Changes in Osteoclasts of Treated Patients

Inhibitors of Cathepsin K (Cat‐K) are recognized as an interesting way to inhibit osteoclast (OC) activity. OCs from patients treated with the anticathepsin‐K inhibitor AAE581 (balicatib) were found enlarged. They contained numerous vacuoles filled with tartrate resistant acid phosphatase (TRAcP), an intracellular enzyme that terminates the degradation of collagen internalized in OC transcytotic vesicles. In a phase 2 clinical study, 675 patients with postmenopausal osteoporosis received the Cat‐K inhibitor AAE581 at 0, 5, 10, 25, or 50 mg/D during 1 year. Eleven patients had a transiliac bone biopsy, studied undecalcified. Histoenzymatic detection of TRAcP was used to identify and count OC number. The histomorphometrist was not aware of the randomization of patients at the time of analysis. OC were unstained in one patient because of a failure in the fixation protocol, but easily observable in the 10 remaining patients. Whatever the received dose, treated patients exhibited a characteristic aspect of the OC cytoplasm which appeared filled of deeply‐stained brown vacuoles, making cells looking like bunches of grape. These round vacuoles, evidenced on TRAcP‐stained sections, were due to the accumulation of intracytoplasmic TRAcP. This led to a moderate enlargement of the OC size when compared to a series of control osteoporotic patients. AAE581 did not induce OC apoptosis at any dosage but it modified OC morphology. Cat‐K inhibition (inhibiting the extracellular collagen breakdown) is associated with a compensatory accumulation of intracellular TRAcP that could not be used to complete protein degradation. TRAcP is also known to be degraded by Cat‐K. Microsc. Res. Tech., 2010.