Your search keyword '"Leiferman E"' showing total 12 results

1. Differential Growth by Growth Plates as a Function of Multiple Parameters of Chondrocytic Kinetics

Author

Wilsman, N. J., Farnum, C. E., Leiferman, E. M., Fry, M., and Barreto, C.

Published

1996

2. Cell Cycle Analysis of Proliferative Zone Chondrocytes in Growth Plates Elongating at Different Rates

Author

Wilsman, N. J., Farnum, C. E., Green, E. M., Leiferman, E. M., and Clayton, M. K.

Published

1996

3. Subperiosteal delivery of transforming growth factor beta 1 and human growth hormone from mineralized PCL films.

Author

Parlato MB, Lee JS, Belair DG, Fontana G, Leiferman E, Hanna R, Chamberlain C, Ranheim EA, Murphy WL, and Halanski MA

Subjects

Animals, Humans, Rabbits, Membranes, Artificial, Tibia drug effects, Human Growth Hormone administration & dosage, Human Growth Hormone pharmacology, Polyesters chemistry, Transforming Growth Factor beta1 pharmacology, Periosteum drug effects

Abstract

The ability to locally deliver bioactive molecules to distinct regions of the skeleton may provide a novel means by which to improve fracture healing, treat neoplasms or infections, or modulate growth. In this study, we constructed single-sided mineral-coated poly-ε-caprolactone membranes capable of binding and releasing transforming growth factor beta 1 (TGF-β1) and human growth hormone (hGH). After demonstrating biological activity in vitro and characterization of their release, these thin bioabsorbable membranes were surgically implanted using an immature rabbit model. Membranes were circumferentially wrapped under the periosteum, thus placed in direct contact with the proximal metaphysis to assess its bioactivity in vivo. The direct effects on the metaphyseal bone, bone marrow, and overlying periosteum were assessed using radiography and histology. Effects of membrane placement at the tibial growth plate were assessed via physeal heights, tibial growth rates (pulsed fluorochrome labeling), and tibial lengths. Subperiosteal placement of the mineralized membranes induced greater local chondrogenesis in the plain mineral and TGF-β1 samples than the hGH. More exuberant and circumferential ossification was seen in the TGF-β1 treated tibiae. The TGF-β1 membranes also induced hypocellularity of the bone marrow with characteristics of gelatinous degeneration not seen in the other groups. While the proximal tibial growth plates were taller in the hGH treated than TGF-β1, no differences in growth rates or overall tibial lengths were found. In conclusion, these data demonstrate the feasibility of using bioabsorbable mineral coated membranes to deliver biologically active compounds subperiosteally in a sustained fashion to affect cells at the insertion site, bone marrow, and even growth plate., (© 2024 Wiley Periodicals LLC.)

Published

2024

4. Microwave Ablation of the Pig Growth Plate: Proof of Concept for Minimally Invasive Epiphysiodesis.

Author

Noonan SO, Miller KJ, Goldstein S, Leiferman E, White J, Brace C, and Noonan KJ

Subjects

Animals, Swine, Leg Length Inequality surgery, Leg Length Inequality diagnostic imaging, Ablation Techniques, Tomography, X-Ray Computed, Epiphyses surgery, Epiphyses diagnostic imaging, Cartilage, Articular surgery, Cartilage, Articular diagnostic imaging, Cartilage, Articular pathology, Minimally Invasive Surgical Procedures methods, Female, Time Factors, Growth Plate surgery, Growth Plate diagnostic imaging, Microwaves, Tibia surgery, Tibia diagnostic imaging, Tibia pathology, Proof of Concept Study

Abstract

Background: Different surgical methods for epiphysiodesis of limb length discrepancy (LLD) have been described. Although these methods are variably effective, they are associated with morbidity (pain and limp) and potential complications. Microwave ablation is a less-invasive opportunity to halt growth by selectively destroying the growth plate via thermal energy to treat LLD in children., Questions/purposes: In this proof-of-concept study using an in vivo pig model, we asked: (1) What is the durability of response 2 to 4 months after microwave ablation of the tibial growth plate as measured by length and angulation of the tibia via a CT scan? (2) Was articular cartilage maintained as measured by standard histologic staining for articular cartilage viability?, Methods: To develop an in vivo protocol for microwave ablation, we placed microwave antennas adjacent to the proximal tibia growth plate in the cadaveric hindlimbs of 18 3-month-old pigs. To determine the suitable time, we varied ablation from 90 to 270 seconds at 65-W power settings. After sectioning the tibia, we visually assessed for discoloration (implying growth plate destruction) that included the central growth plate but did not encroach into the epiphysis in a manner that could disrupt the articular surface. Using this information, we then performed microwave ablation on three live female pigs (3.5 to 4 months old) to evaluate physiologic changes and durability of response. A postprocedure MRI was performed to ensure the intervention led to spatial growth plate alterations similar to that seen in cadavers. This was followed by serial CT, which was used to assess the potential effect on local bone and growth until the animals were euthanized 2 to 4 months after the procedure. We analyzed LLD, angular deformity, and bony deformity using CT scans of both tibias. The visibility of articular cartilage was compared with that of the contralateral tibia via standard histologic staining, and growth rates of the proximal tibial growth plate were compared via fluorochrome labeling., Results: Eighteen cadaveric specimens showed ablation zones across the growth plate without visual damage to the articular surface. The three live pigs did not exhibit changes in gait or require notable pain medication after the procedure. Each animal demonstrated growth plate destruction, expected limb shortening (0.8, 1.2, and 1.5 cm), and bony cavitation around the growth plate. Slight valgus bone angulation (4º, 5º, and 12º) compared with the control tibia was noted. No qualitatively observable articular cartilage damage was encountered from the histologic comparison with the contralateral tibia for articular cartilage thickness and cellular morphology., Conclusion: A microwave antenna placed into a pig's proximal tibia growth plate can slow the growth of the tibia without apparent pain and alteration of gait and function., Clinical Relevance: Further investigation and refinement of our animal model is ongoing and includes shorter ablation times and comparison of dynamic ablation (moving the antennae during the ablation) as well as static ablation of the tibia from a medial and lateral portal. These refinements and planned comparison with standard mechanical growth arrest in our pig model may lead to a similar approach to ablate growth plates in children with LLD., Competing Interests: All ICMJE Conflict of Interest Forms for authors and Clinical Orthopaedics and Related Research® editors and board members are on file with the publication and can be viewed on request., (Copyright © 2024 by the Association of Bone and Joint Surgeons.)

Published

2024

5. Histological and radiographic evaluation of three common tendon transfer techniques in an un-ossified bone porcine model: implications for early anterior tibialis tendon transfers in children with clubfeet.

Author

Korth K, Bolam S, Leiferman E, Crenshaw T, Dray M, Crawford HA, Wallace M, and Halanski MA

Abstract

Purpose: To compare the histological healing and radiographic effects of tendons transferred to ossified or unossified bone using different tendon fixation techniques., Methods: Nine new-born piglets underwent bilateral tendon transfers to either the ossified boney calcaneal body or unossified apophysis. The tendons were fixed using metallic suture anchors, sutures alone or a bone tunnel. At six weeks of age, calcanei were harvested, radiologically imaged and then prepared for histology. A semi-quantitative aggregated scoring system with values ranging from 0 (poor) to 15 (excellent), was used to grade healing at the surgical enthesis and the apophyseal ossification was graded by five independent reviewers in triplicate using a modified (1 to 4) validated scoring system., Results: Histologically, the cartilaginous transfers utilizing the tunnel and suture techniques also demonstrated the best average aggregated scores of entheses healing rivalling that measured in transfers using the classic bone tunnel technique (clinical benchmark), whereas suture anchor fixation demonstrated the worst healing in both the ossified and unossified samples. All three transfer techniques caused at least minor alterations in apophyseal ossification, with the most significant changes observed in the metallic suture anchor cohort. The tunnel and suture techniques demonstrated similar and more mild abnormalities in ossification., Conclusion: Tendon transfers to unossified bone heal histologically as well as transfers classically performed through tunnels in bone. Suture fixation or tunnel techniques appear radiographically and histologically superior to suture anchors in our newborn porcine model., (Copyright © 2021, The author(s).)

Published

2021

6. Maternal Diets Deficient in Vitamin D Increase the Risk of Kyphosis in Offspring: A Novel Kyphotic Porcine Model.

Author

Halanski MA, Hildahl B, Amundson LA, Leiferman E, Gendron-Fitzpatrick A, Chaudhary R, Hartwig-Stokes HM, McCabe R, Lenhart R, Chin M, Birstler J, and Crenshaw TD

Subjects

Animals, Bone Density, Diet, Dietary Supplements statistics & numerical data, Female, Magnetic Resonance Imaging, Male, Pregnancy, Prenatal Exposure Delayed Effects physiopathology, Spine diagnostic imaging, Spine physiopathology, Swine, Tomography, X-Ray Computed, Kyphosis etiology, Vitamin D pharmacology, Vitamin D Deficiency complications

Abstract

Background: The purpose of this study was to explore the role of perinatal vitamin-D intake on the development and characterization of hyperkyphosis in a porcine model., Methods: The spines of 16 pigs were assessed at 9, 13, and 17 weeks of age with radiography and at 17 weeks with computed tomography (CT), magnetic resonance imaging (MRI), histology, and bone-density testing. An additional 169 pigs exposed to 1 of 3 maternal dietary vitamin-D levels from conception through the entire lactation period were fed 1 of 4 nursery diets supplying different levels of vitamin D, calcium, and phosphorus. When the animals were 13 weeks of age, upright lateral spinal radiography was performed with use of a custom porcine lift and sagittal Cobb angles were measured in triplicate to determine the degree of kyphosis in each pig., Results: The experimental animals had significantly greater kyphotic sagittal Cobb angles at all time points when compared with the control animals. These hyperkyphotic deformities demonstrated no significant differences in Hounsfield units, contained a slightly lower ash content (46.7% ± 1.1% compared with 50.9% ± 1.6%; p < 0.001), and demonstrated more physeal irregularities. Linear mixed model analysis of the measured kyphosis demonstrated that maternal diet had a greater effect on sagittal Cobb angle than did nursery diet and that postnatal supplementation did not completely eliminate the risk of hyperkyphosis., Conclusions: Maternal diets deficient in vitamin D increased the development of hyperkyphosis in offspring in this model., Clinical Relevance: This study demonstrates that decreased maternal dietary vitamin-D intake during pregnancy increases the risk of spinal deformity in offspring. In addition, these data show the feasibility of generating a large-animal spinal-deformity model through dietary manipulation alone.

Published

2018

7. Tendon transfer to unossified bone in a porcine model: potential implications for early tibialis anterior tendon transfers in children with clubfeet.

Author

Halanski MA, Abrams S, Lenhart R, Leiferman E, Kaiser T, Pierce E, Franklin RR, Opel D, Noonan KJ, and Crenshaw TD

Abstract

Purpose: Tibialis anterior tendon transfers (TATT) are commonly performed in young children following Ponseti casting for clubfeet. The classic TATT involves advancing the tendon through a hole drilled in the ossified cuneiform. The aim of this study was to determine if tendons transferred through unossified bones have untoward effects on subsequent bone development., Method: Twenty-five piglets underwent one of five surgical procedures. An 18-gauge needle was then used to place a tunnel through the bony or cartilaginous portion of the calcaneus (through direct visualization) and isolated slips of the flexor digitorum superficialis (FDS) were placed through the tunnels, as determined by surgical procedure. Radiographic and/or histologic evaluations of the calcaneal apophyses were then performed. A discrete (1-4) and dichotomous "Normal" or "Abnormal" scoring system was developed and its reliability assessed to grade the appearance of the calcanei. Calcaneal appearances following the surgical procedures were then compared with controls. The average load to failure of a subset of transferred tendons was then compared using an MTS machine., Results: The proposed apophyseal grading system (1-4) demonstrated an intraclass correlational coefficient (ICC) for consistency of 0.92 [95% confidence interval (CI) 0.88 < ICC < 0.95] and ICC for agreement of 0.91 (95% CI 0.86 < ICC < 0.95), indicating strong agreement and consistency. Similarly, Fleiss' kappa for the 1-4 scoring system was found to be 0.67, indicating substantial agreement between reviewers. When the 1-4 system was translated into the dichotomous scheme "Normal" and "Abnormal", the kappa value increased to 0.94, indicating strong agreement. Forty-six apophyses (13 control and 33 operative) were assessed using this scoring scheme. Apophyseal transfers were significantly more abnormal than controls (p < 0.0001), while no difference in abnormalities was found following tunnel placement alone (p = 1). Mechanical testing of the tendons transferred to bone or through the cartilaginous apophysis demonstrated no significant differences (p = 0.2)., Conclusion: Tendon transfers through unossified bones altered subsequent bone development., Significance: While the long-term consequence of these structural changes is unknown, these findings suggest that tendon transfers through unossified bones should be avoided and alternative methods of tendon fixation explored., Competing Interests: The Authors have no potential conflicts of interest pertaining to this manuscript. Funding This study was funded by an Orthopaedic Research and Education Foundation (OREF) Resident Research Grant (MSN158875). The principal investigator (PI) was Sam Abrams, M.D. Ethical approval All applicable international, national, and/or institutional guidelines for the care and use of animals were followed. Animal use was approved through our Institutional Animal Care and Use Committee (IACUC).

Published

2016

8. Growth Retardation (Hemiepiphyseal Stapling) and Growth Acceleration (Periosteal Resection) as a Method to Improve Guided Growth in a Lamb Model.

Author

Noonan KJ, Halanski MA, Leiferman E, and Wilsman N

Subjects

Animals, Radiography, Random Allocation, Sheep, Tibia growth & development, Bone Plates, Bone Screws, Epiphyses surgery, Periosteum surgery, Surgical Stapling, Tibia surgery

Abstract

Background: Guided growth corrects pediatric limb deformity by inhibiting growth on the convexity of the bone. Both modular and rigid implants have been used; we endeavor to determine whether a clear advantage of one implant exists. We further hypothesize that improved correction could be realized by accelerating growth with resection of the periosteum., Methods: Sixteen lambs underwent guided growth of the medial proximal tibia (the opposite limb served as a control). Group 1 used a rigid staple (n=5); group 2 a modular plate and screw construct (n=5), and group 3 had a similar device plus periosteal resection (n=6). Radiographs tracked the progression of deformity in the coronal plane. Before sacrifice, pulsed fluorochrome labels allowed for temporal and spatial growth rate analysis. At sacrifice, True Deformity was calculated (and compared with control tibia) from standardized radiographs in the coronal and sagittal planes. Device Efficiencies were normalized by dividing True Deformity produced (degrees) by the Expected Growth gain (mm) from the control limb., Results: Group 3 produced greater coronal plane deformity than group 1 by an average of 2.2 degrees per month (P=0.001) and group 2 by an average of 2.4 degrees per month (P=0.0007). At sacrifice, groups 1 and 2 were equally effective at limiting growth to 75% of control; no differences in growth retardation were noted. No differences in Device Efficiency were noted between groups 1 and 2. The Device Efficiency was significantly different between groups 1 and 2 with comparison with group 3 (P=0.05 and P=0.022); with a 2.5 degree/mm faster deformation in the stripped cohort., Conclusions: Rigid implants initially produced deformity quicker than modular constructs; yet ultimately, both implants were equally effective at guiding growth. Device Efficiency for the modular group improved significantly with the addition of periosteal stripping as method to accelerate growth.

Published

2016

9. Periosteal Fiber Transection During Periosteal Procedures Is Crucial to Accelerate Growth in the Rabbit Model.

Author

Halanski MA, Yildirim T, Chaudhary R, Chin MS, and Leiferman E

Subjects

Age Factors, Animals, Female, Models, Animal, Orthopedic Procedures adverse effects, Rabbits, Radiography, Tibia diagnostic imaging, Time Factors, Bone Development, Orthopedic Procedures methods, Osteotomy adverse effects, Periosteum surgery, Tibia growth & development, Tibia surgery

Abstract

Background: Disruption of the periosteum has been used to explain overgrowth after long bone fractures. Clinically, various periosteal procedures have been reported to accelerate growth with varied results. Differences between procedures and study populations, in these prior studies, make drawing conclusions regarding their effectiveness difficult., Questions/purposes: The purpose of this study was to (1) determine if all reported periosteal procedures accelerate growth and increase the length of bones; (2) study the relative duration of these growth-accelerating effects at two time points; and (3) identify the periosteal procedure that results in the most growth., Methods: Periosteal stripping (N = 8), periosteal transection (N = 8), periosteal resection (N = 8), (and) full periosteal release (N = 8) were performed on the tibiae of skeletally immature rabbits. Tibiae were collected 2 weeks postoperatively. The tibiae of additional cohorts of periosteal transection (N = 8), periosteal resection (N = 8), full periosteal release (N = 8), and repetitive periosteal transection (N = 8) were collected 8 weeks postoperatively. The contralateral tibiae served as an operative sham control in all cohorts. Fluorochrome bone labeling was used to measure growth rates, whereas high-resolution Faxitron imaging was performed to measure tibial lengths. Comparisons were then made between (1) experimental and sham controls; and (2) different procedures. Eight additional nonsurgical animals were included as age-matched controls., Results: Growth (in microns) was accelerated at the proximal tibial physis on the tibia undergoing the periosteal surgical procedures versus the contralateral control limb after the transection (411 ± 27 versus 347 ± 18, p < 0.001 [mean ± SD]), resection (401 ± 33 versus 337 ± 31, p < 0.001), and full periosteal release (362 ± 45 versus 307 ± 33, p < 0.001), 2 weeks after the index procedure. Conversely, the periosteal stripping cohort trended toward less growth (344 ± 35) than the controls (356 ± 25; p = 0.08). No differences were found between limbs in the nonoperative controls. Tibial lengths for the experimental tibiae were longer at 2 weeks in the transection (1.6 ± 0.4 mm, p < 0.001), resection (1.6 ± 0.9 mm, p = 0.03), and full periosteal release (1.7 ± 0.5 mm, p < 0.001), whereas negligible differences were found between the tibiae of the nonoperative controls (0.13 ± 0.7 mm, p = 0.8) and stripping cohorts (0.10 ± 0.6 mm, p = 0.7). At 8 weeks, growth acceleration ceased at the proximal tibial physes in the transection cohort (174 ± 11 versus 176 ± 21, p = 0.8), and the control limbs actually grew faster than the experimental limbs after resection (194 ± 24 versus 178 ± 23, p = 0.02) and full periosteal release (193 ± 16 versus 175 ± 19, p < 0.01) cohorts. Growth rates were increased over control limbs, only in the repetitive transection cohort (190 ± 30 versus 169 ± 19, p = 0.01) at 8 weeks. Tibial lengths for the experimental tibiae remained longer at 8 weeks in the transection (1.4 ± 0.70 mm, p < 0.001), resection (2.2 ± 0.82 mm, p < 0.001), full periosteal release (1.6 ± 0.42 mm, p < 0.001), and repetitive periosteal transection (3.3 ± 1.1 mm, p < 0.001), whereas negligible differences were found between the tibiae of the nonoperative controls (-0.08 ± 0.58 mm, p = 0.8). Comparing the procedures at 2 weeks postoperatively, no differences were found in tibial lengths among the transection (2.1% ± 0.5% increase), resection (2.1% ± 1.1% increase), and full periosteal release (2.1% ± 0.6 %); however, all three demonstrated greater increased growth when compared with the stripping cohort (-0.10% ± 0.7%; p < 0.05). At 8 weeks no differences could be found between increased tibial lengths among the transection (1.5% ± 0.7%), resection (2.3% ± 0.9%), and full periosteal release (1.7% ± 0.4%). The repetitive transection produced the greatest over length increase (3.5% ± 1%), and this was greater than the acceleration generated by the single resection (p < 0.001) or the full periosteal release (p = 0.001). All four demonstrated an increase greater than the nonoperative control (0.09% ± 0.6%; p < 0.05)., Conclusions: Transection of the longitudinally oriented periosteal fibers appears critical to accelerate growth in a rabbit model., Clinical Relevance: These findings in an animal model support previous claims that limb overgrowth occurs as the result of periosteal disruption. Based on these findings in rabbits, we believe that less invasive procedures like periosteal transection are a promising avenue to explore in humans; clinical studies should seek to determine whether it is equally effective as more invasive procedures and its role as an adjunct to guided growth or distraction osteogenesis.

Published

2016

10. Tracking injectable microspheres in dynamic tissues with encapsulated superparamagnetic iron oxide nanoparticles.

Author

Franklin-Ford T, Shah N, Leiferman E, Chamberlain CS, Raval A, Vanderby R, and Murphy WL

Subjects

Animals, Contrast Media therapeutic use, Magnetics, Magnetite Nanoparticles therapeutic use, Muscles ultrastructure, Phantoms, Imaging, Polyglactin 910, Rats, Rats, Wistar, Contrast Media chemistry, Drug Delivery Systems methods, Magnetic Resonance Imaging methods, Magnetite Nanoparticles chemistry, Microspheres

Abstract

Trackable spheres of similar size to those typically used for sustained protein delivery are prepared by incorporating superparamagnetic iron oxide (SPIO) nanoparticles into the core of poly(lactide-co-glycolide) microspheres. The visibility of injections in static and temporally in dynamic tissue systems is demonstrated. This method improves upon other, less sensitive imaging modalities in their ability to track injectable delivery systems. The results obtained confirm the localization of microspheres to the injected target area and highlight the novelty of tracking delivery vehicles for other applications., (Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2012

11. Age and pattern of the onset of differential growth among growth plates in rats.

Author

Wilsman NJ, Bernardini ES, Leiferman E, Noonan K, and Farnum CE

Subjects

Animals, Cell Proliferation, Chondrocytes physiology, Fetal Development physiology, Growth Plate embryology, Growth Plate growth & development, Kinetics, Radius, Rats, Rats, Long-Evans, Tibia, Time Factors, Aging physiology, Animals, Newborn growth & development, Chondrocytes cytology, Growth Plate cytology

Abstract

Differential growth is the phenomenon whereby growth plates in the same individual at the same time all have uniquely different axial growth velocities. Differential growth is clearly present in the adolescent skeleton. In this study we ask two questions. When and by what pattern does the phenomenon of differential growth begin? Second, to what extent are the development of differential growth velocities correlated with changes in hypertrophic chondrocyte volume and/or with changes in chondrocytic production/turnover? Four growth plates (proximal and distal radial; proximal and distal tibial) were studied at 24 different time points in Long-Evans rats between the 17th gestational day (when differential growth does not exist) and postnatal day 27 (when differential growth is well established). Growth velocities were measured using fluorochrome labeling. Using stereological methodology, multiple chondrocytic kinetic parameters were measured for all growth plates. Elongation of the proximal radial growth plate decreases relative to elongation in the other three growth plates in the late fetal phase. Differential growth is fully expressed at postnatal day 13 when the other three growth plates start to decrease daily elongation at different rates. Differential growth is primarily associated with differences in hypertrophic cell volume manifested when growth deceleration occurs. This study also illustrates that differential growth is superimposed on systemic regulators that affect all growth plates simultaneously. The most dramatic illustration of this is the sharp decline in growth velocity in all four growth plates that occurs perinatally., ((c) 2008 Orthopaedic Research Society. Published by Wiley Periodicals, Inc.)

Published

2008

12. Bone elongation in rats with renal failure and mild or advanced secondary hyperparathyroidism.

Author

Sanchez CP, He YZ, Leiferman E, and Wilsman NJ

Subjects

Animals, Gene Expression, Growth Plate pathology, Hyperparathyroidism, Secondary metabolism, Insulin-Like Growth Factor I metabolism, Male, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Receptor, Parathyroid Hormone, Type 1 genetics, Renal Insufficiency metabolism, Tibia growth & development, Tibia metabolism, Tibia pathology, Bone Development, Hyperparathyroidism, Secondary etiology, Hyperparathyroidism, Secondary pathology, Renal Insufficiency complications, Renal Insufficiency pathology

Abstract

Background: Impairment of growth in children with chronic renal failure may be due, in part to the insensitivity to the actions of growth hormone by insulin-like growth factor-I (IGF-I) because of accumulations of IGF binding proteins. There are a few studies describing the changes that occur in the growth plate in renal failure. None of these studies has simultaneously compared the modifications in the expression of selected markers of endochondral bone formation in renal failure with mild or advanced secondary hyperparathyroidism., Methods: Forty-six rats that underwent 5/6 nephrectomy (Nx) were fed either standard rodent diet (Nx-control) or high phosphorus diet to induce advanced secondary hyperparathyroidism (Nx-phosphorus) for 4 weeks. Sections of the tibia were obtained for growth plate histomorphometry, immunohistochemistry studies, and in situ hybridization experiments for selected markers of endochondral bone formation., Results: Weight gain, gain in length, and tibial length were less in Nx animals. Serum parathyroid hormone (PTH) and phosphorus levels were higher and serum calcium levels were lower in the Nx-phosphorus group. The width of the growth plate was much shorter in the Nx-phosphorus group due to a decrease in both proliferative and hypertrophic zones. IGF-I protein and IGF binding protein-3 staining were diminished in both Nx groups without changes in the IGF-I receptor expression; the decline in IGF-I protein expression was much lower in the Nx-phosphorus group. PTH/PTH receptor protein (PTHrP) receptor mRNA transcripts decline and tartrate-resistant acid phosphastase (TRAP) staining increased only in the Nx-phosphorus group., Conclusion: The growth impairment in renal failure may be worsened by the severity of secondary hyperparathyroidism.

Published

2004