Evaluation of interspinous process distraction device (X-STOP) in a representative patient cohort.
S. Patil, M. Burton, C. Storey, C. Glenn, A. MARINO & A. Nanda. World Neurosurg. 80:213–217, 2013. [PDF]
Excitation wave propagation through gap-junction channels between synovial cells.
O.V. Kolomytkin, A.A. MARINO & D. Kolomytkin. 57th Annual Meeting of the Orthopaedic Research Society, Long Beach, CA, January 13–16, 2011. [PDF]
Pathophysiology of osteoarthritis: evidence against the viscoelastic theory.
S. Dunn, O.V. Kolomytkin & A.A. MARINO. Pathobiology 76: 322–328, 2009. [PDF]
Hyaluronan-binding receptors: possible involvement in osteoarthritis.
S. Dunn, O.V. Kolomytkin, D.D. Waddell & A.A. MARINO. Mod. Rheumatol. 19: 151–155, 2009. [PDF]
Design and implementation of a system-based course in musculoskeletal medicine for medical students.
K. Bilderback, J. Eggerstedt, K.K. Sadasivan, L. Seelig, R. Wolf, S. Barton, R. McCall, A.L. Chesson, Jr. & A.A. MARINO. J. Bone Joint Surg. 90: 2292–2300, 2008. [PDF]
Hyaluronan suppresses IL-1ß-induced metalloproteinase activity from synovial tissue.
D.D. Waddell, O.V. Kolomytkin, S. Dunn & A.A. MARINO. Clin. Orthop. Relat. Res. 465:241–248, 2007. [PDF]
Chronic knee effusions in patients with advanced osteoarthritis.
D. Waddell & A.A. MARINO. J. Knee Surg. 20: 181–84, 2007. [PDF]
New intra-articular therapy for osteoarthritis.
A.A. MARINO, O.V. Kolomytkin & D.D. Waddell. Venture Capitol Conference, Shreveport, 2006. [PDF]
Assessment of immunologic mechanisms for flare reactions to Synvisc®.
A.A. MARINO, D.D. Waddell, O.V. Kolomytkin, S. Pruett, K.K. Sadasivan & J.A. Albright. Clin. Orthop. Relat. Res. 442: 187–194, 2006. [PDF]
External suction drainage in primary total joint arthroplasties.
L.M. Gehrig, K.K. Sadasivan, A.A. MARINO & J.A. Albright. Am. J. Orthop. 34: 164–166, 2005. [PDF]
Increased intercellular communication through gap junctions may contribute to progression of osteoarthritis.
A.A. MARINO, D.D. Waddell, O.V. Kolomytkin, W.D. Meek, R. Wolf, K.K. Sadasivan & J.A. Albright. Clin. Orthop. Relat. Res. 422: 224–232, 2004. [PDF]
Hyaluronan suppresses IL-1ß-induced metalloproteinase activity from synovial lining cells in patients with osteoarthritis.
A.A. MARINO, D.D. Waddell, O.V. Kolomytkin, K.K. Sadasivan & J.A. Albright. 50th Annual Meeting, Orthopedic Research Society, March 2004. [PDF]
Constitutive and IL-1ß-induced expression of metalloproteinases by synovial lining cells mediated by gap-junction intercellular communication.
O.V. Kolomytkin, A.A. MARINO, D.D. Waddell, R.E. Wolf, K.K. Sadasivan & J.A. Albright. 50th Annual Meeting, Orthopedic Research Society, March 2004. [PDF]
Viscosupplementation: evidence for a mechanism of action.
D.D. Waddell, O.V. Kolomytkin & A.A. MARINO. Presentation. Annual Meeting of the Academy of Orthopedic Surgeons, March 2004. [PDF]
Granulomatous inflammation after Hylan G-F 20 viscosupplementation of the knee.
A.A. MARINO, S. Dunn & D.D. Waddell. J. Bone Joint Surg. 85-A: 2051–2052, 2003. [PDF]
IL-1ß-induced production of metalloproteinases by synovial cells depends on gap-junction conductance during the early stage of signal transduction.
O.V. Kolomytkin, A.A. MARINO, D.D. Waddell, J.M. Mathis, R.E. Wolf, K.K. Sadasivan & J.A. Albright. Am. J. Physiol: Cell Physiol. 282: C1254–C1260, 2002. [PDF]
Gap junctions in osteoarthritis.
D.D. Waddell, A.A. MARINO, O.V. Kolomytkin, W.D. Meek, R.E. Wolf, K.K. Sadasivan & J.A. Albright. Presentation. American Academy of Orthopaedic Surgeons Annual Meeting. Dallas, TX, February 2002. [PDF]
Effect of concentration and molecular weight of hyaluronan on interleukin-1-induced matrix metalloprotease activity.
S. Dunn, O. Kolomytkin, D. Waddell & A. MARINO. Osteoarthritis Cartilage 10 (Suppl. 1): PS78, 2002. [PDF]
Effect of soft-tissue trauma on the early periosteal response of bone to injury.
P.S. Landry, A.A. MARINO, K.K. Sadasivan & J.A. Albright. J. Trauma 48: 479–483, 2000. [PDF]
Gap junctions in human synovial cells and tissue.
O.V. Kolomytkin, A.A. MARINO, K.K. Sadasivan, W.D. Meek, R.E. Wolf, V. Hall, K.J. McCarthy & J.A. Albright. J. Cell. Physiol. 184: 110–117, 2000. [PDF]
Programmed cell death in post-traumatic bone callus.
M.L. Olmedo, P.S. Landry, K.K. Sadasivan, J.A. Albright & A.A. MARINO. Cell. Molec. Biol. 46: 89–97, 2000. [PDF]
Mechanistic basis of osteoarthritis.
A.A. MARINO. Presentation. LSU–Shreveport Dept. of Pharmacology, LSU-Shreveport. May 2000. [PDF]
Regulation of osteoblast levels during bone healing.
M.L. Olmedo, P.S. Landry, K.K. Sadasivan, J.A. Albright, W.D. Meek, R. Routh & A.A. MARINO. J. Orthop. Trauma 13: 356–362, 1999. [PDF]
Intracellular signaling mechanisms of interleukin-1ß in synovial fibroblasts.
O.V. Kolomytkin, A.A. MARINO, K.K. Sadasivan, R.E. Wolf & J.A. Albright. Am. J. Physiol. 276 (Cell Physiol. 45): C9–C15, 1999. [PDF]
Interleukin-1ß is transduced by synovial fibroblasts via a pathway involving protein kinase C and Ca2+ influx.
K. Sadasivan, O. Kolomytkin, A. MARINO, R. Wolf & J. Albright. Presentation. Experimental Biology 98. San Francisco, CA, April 1998. [PDF]
Gap Junctions in human synovial cells and tissue.
O. Kolomytkin, K. Sadasivan, A. MARINO, R. Wolf & J. Albright. Presentation. Experimental Biology 98. San Francisco, CA, April 1998. [PDF]
Interleukin-1ß switches electrophysiological states of synovial fibroblasts.
O.V. Kolomytkin, A.A. MARINO, K.K. Sadasivan, R.E. Wolf & J.A. Albright. Am. J. Physiol. 273 (Regulatory Integr. Comp. Physiol. 42): R1822–R1828, 1997. [PDF]
Electromagnetic fields can affect osteogenesis by increasing the rate of differentiation.
P.S. Landry, K.K. Sadasivan, A.A. MARINO & J.A. Albright. Clin. Orthop. Relat. Res., 338: 262–270, 1997. [PDF]
Apoptosis is coordinately regulated with osteoblast formation during bone healing.
P. Landry, K. Sadasivan, A. MARINO & J. Albright. Tissue Cell 29(4): 413–419, 1997. [PDF]
Bone injury response: an animal model for testing theories of regulation.
P.S. Landry, A.A. MARINO, K.K. Sadasivan & J.A. Albright. Clin. Orthop. Relat. Res. 332: 260–273, 1996. [PDF]
Treatment of tendon injuries in thoroughbred racehorses using carbon-fiber implants.
K.P. Reed, S.S. van den Berg, A. Rudolph, J.A. Albright, H.W. Casey & A.A. MARINO. J. Equine Vet. Sci. 14: 371–377, 1994. [PDF]
A comparative study of osseointegration of titanium implants in corticocancellous block and corticocancellous chip grafts in canine ilium.
D. Lew, A.A. MARINO, J.M. Startzell & J.C. Keller. J. Oral Maxillofac. Surg. 52: 952–958, 1994. [PDF]
Potassium channels in epithelial cells.
I.G. Iliev & A.A. MARINO. Cell. Mol. Biol. Res. 39: 601–611, 1993. [PDF]
The effect of electrical stimulation on bone formation around hydroxyapatite implants placed on the rabbit mandible.
D. Lew & A. MARINO. J. Oral Maxillofac. Surg. 49: 735–739, 1991. [PDF]
Use of carbon fibers in the reconstruction of knee ligaments.
P. Demmer, M. Fowler & A.A. MARINO. Clin. Orthop. Relat. Res. 271: 225–232, 1991. [PDF]
Piezoelectricity in cementum, dentin, and bone.
A.A. MARINO & B.D. Gross. Arch. Oral Biol. 34: 507–509, 1989. [PDF]
Use of carbon fibers for the repair of bowed tendons: a preliminary report.
S.S. van den Berg, K.P. Reed & A. MARINO. J. Equine Vet. Sci. 8: 339–340, 1988. [PDF]
Quasi-static charge interactions in bone.
A.A. MARINO, J. Rosson, E. Gonzalez, L. Jones, S. Rogers & E. Fukada. J. Electrostatics 21: 347–360, 1988. [PDF]
Direct current and bone growth.
A.A. MARINO. In Foundations of Modern Bioelectricity, A.A. Marino, ed., Marcel Dekker, New York, pp. 657–709, 1988. [PDF]
Silver-nylon cloth: In vitro and in vivo evaluation of antimicrobial activity.
E.A. Deitch, A.A. MARINO, V. Malakanok & J.A. Albright. J. Trauma 27: 301–304, 1987. [PDF]
Slow healing fractures: can they be prevented?
G. Fontanesi, G.C. Traina, F. Giancecchi, I. Tartaglia, R. Rotini, B. Virgili, R. Cadossi, G. Ceccherelli & A.A. MARINO. Ital. J. Orthop. Traumatol. 12(3):371–385, 1986. [PDF]
Orthopaedic applications of carbon fibers.
A.A. MARINO, Stephen Fronczak, Clarence Boudreaux, Douglas N. Lyles, E. Michael Keating & James A. Albright. IEEE Eng. Med. Biol. 5: 31–34, 1986. [PDF]
Electrical stimulation of mandibular osteotomies in rabbits.
A.A. MARINO, B. Gross & R.D. Specian. Oral Surg. Oral Med. Oral Path. 62: 20–24, 1986. [PDF]
Functional repair of rabbit gastrocnemius tendons using carbon fibers.
E.M. Keating, A.A. MARINO, J.A. Albright & R.D. Specian. Clin. Orthop. Relat. Res. 209: 292–297, 1986. [PDF]
Electric silver antisepsis.
A.A. MARINO, E.A. Deitch & J.A. Albright. IEEE Trans. Biomed. Eng. BME-32: 336–337, 1985. [PDF]
Electrochemical properties of silver-nylon fabrics.
A.A. MARINO, V. Malakanok, E.A. Deitch, J.A. Albright & R.D. Specian. J. Electrochem. Soc. 132: 68–72, 1985. [PDF]
Electrical augmentation of the antimicrobial activity of silver-nylon fabrics.
A.A. MARINO, E.A. Deitch & J.A. Albright. J. Biol. Phys. 12: 93–98, 1984. [PDF]
The use of carbon fibers in ligament repair: mechanical and biological properties.
J.A. Albright, E.M. Keating & A.A. MARINO. Schumpert Med. Q. 3: 16–24, 1984. [PDF]
Electrical stimulation in orthopaedics: past, present and future.
A.A. MARINO. J. Bioelectricity 3: 235–244, 1984. [PDF]
Silver nylon: a new antimicrobial agent.
E.A. Deitch, A.A. MARINO, T.E. Gillespie & J.A. Albright. Antimicrob. Agents Chemother. 23: 356–359, 1983. [PDF]
The electrical environment produced at bone fracture sites by inductive coupling.
F.X. Hart & A.A. MARINO. Abstract. In Transactions of the 2nd Annual Meeting of the Bioelectrical Repair and Growth Society 2: 70, 1982.
Electret-induced bone formation in rats.
A.A. MARINO, J. Cullen, R.O. Becker & E. Fukada. In IEEE 1981: Frontiers of Engineering in Health Care, B.A. Cohen, ed., pp. 220–222, 1981. [PDF]
Fracture healing in rats exposed to extremely low frequency electric fields.
A.A. MARINO, J.M. Cullen, M. Reichmanis & R.O. Becker. Clin. Orthop. Relat. Res. 145: 239–244, 1979. [PDF]
Power frequency electric fields and biological stress: a cause-and-effect relationship.
A.A. MARINO, J.M. Cullen, M. Reichmanis & R.O. Becker, in Biological Effects of Extremely Low Frequency Electromagnetic Fields. Proc. 18th Hanford Life Sciences Symposium, Richland Wash., U.S. Dept. of Energy. DOE Symposium Series 50: 258–276, 1978. [PDF]
Evaluation of electrical techniques for stimulation of hard tissue growth.
R.O. Becker, J.A. Spadaro & A.A. MARINO. Bull. Prosthetics Res. BPR 10–30: 206–209, 1978. [PDF]
Evaluation of electrical techniques for stimulation of hard tissue growth.
R.O. Becker, J.A. Spadaro & A.A. MARINO. Bull. Prosthetics Res. BPR 10-29: 133–136, 1978. [PDF]
Evaluation of electric techniques for stimulation of hard tissue growth.
R.O. Becker, J.A. Spadaro & A.A. MARINO. Bull. Prosthetics Res. BPR 10-27: 180–184, 1977. [PDF]
Clinical experiences with low intensity direct current stimulation of bone growth.
R.O. Becker, J.A. Spadaro & A.A. MARINO. Clin. Orthop. Relat. Res. 124: 75–83, 1977. [PDF]
Electrical osteogenesis: an analysis.
A.A.MARINO & R.O. Becker. Clin. Orthop. Rel. Res. 123: 280–282, 1977. [PDF]
Photoconductivity in bone and tendon.
R.G. Fuller, A.A. MARINO & R.O. Becker. Biophys. J. 16: 845–846, 1976. [PDF]
Piezoelectricity in hydrated frozen bone and tendon.
A.A. MARINO & R.O. Becker. Nature 253: 627–628, 1975. [PDF]
Piezoelectricity in bone as a function of age.
A.A. MARINO & R.O. Becker. Calc. Tiss. Res. 14: 327–331, 1974. [PDF]
Piezoelectricity and autoinduction.
A.A. MARINO & R.O. Becker. Clin. Orthop. Relat. Res. 100: 247–249, 1974. [PDF]
Electrical stimulation of articular cartilage regeneration.
B. Baker, J.A. Spadaro, A.A. MARINO & R.O. Becker. Conference on Electrically Mediated Growth Mechanisms. NY Academy of Sciences, September 1973. Ann. N.Y. Acad. Sci. 238: 491–499, 1974. [PDF]
Dupuytren’s contracture: some associated biophysical abnormalities.
E. Berg, A.A. MARINO & R.O. Becker. Clin. Orthop. Relat. Res. 83: 144–148, 1972. [PDF]
Origin of the piezoelectric effect in bone.
A.A. MARINO, S.C. Soderholm & R.O. Becker. Calc. Tiss. Res. 8: 177–180, 1971. [PDF]
Piezoelectric effect and growth control in bone.
A.A. MARINO & R.O. Becker. Nature 228: 473, 1970. [PDF]
Evidence for epitaxy in the formation of collagen and apatite.
A.A. MARINO & R.O. Becker. Nature 226: 652–653, 1970. [PDF]
The effect of electric current on rat tail tendon collagen in solution.
A.A. MARINO & R.O. Becker. Calc. Tiss. Res. 4: 330–338, 1970. [PDF]
Temperature dependence of the electron paramagnetic resonance signal in tendon collagen.
A.A. MARINO & R.O. Becker. Nature 222: 164–165, 1969. [PDF]
Correction concerning electron paramagnetic resonance in human bone mineral.
A.A. MARINO & R.O. Becker. Nature 221(181): 661, 1969. [PDF]
Role of water in some biophysical properties of skeletal tissues.
R.O. Becker & A.A. MARINO. In Biology of the Mouth, Publication No. 89, Am. Assoc. Adv. Sci., pp. 135–143, 1968. [PDF]
Mechanically induced free radicals in bone.
A.A. MARINO & R.O. Becker. Nature 218: 466–467, 1968. [PDF]
Dielectric and Paramagnetic Resonance Properties of Bone. (Ph.D. Dissertation)
A.A. MARINO. Dissertation number 6907760. Syracuse University. ProQuest 302408678, 1968. [PDF]
Dielectric determination of bound water of bone.
A.A. MARINO, R.O. Becker & C.H. Bachman. Phys. Med. Biol. 12: 367–378, 1967. [PDF]
Evidence for direct physical bonding between the collagen fibers and apatite crystals in bone.
A.A. MARINO & R.O. Becker. Nature 213: 697–698, 1967. [PDF]
The electron paramagnetic resonance spectra of bone and its major components.
R.O. Becker & A.A. MARINO. Nature 210: 583–588, 1966. [PDF]