Tender For Rate Contract For Joint Replacement Items For Thr, Tkr, Arthoplasty, Shoulder At Medical College And Hospital Jhalawar - 2 Uncemented Primary Thrmetal On Poly Femoral Stem The Femoral Stem Should - 3 Fully Ha Coated Stem With Thickness Of 150 Microns ( + / - 5 ) That Induces Smooth Osteo-Intregration. 4 Range Of Motion Upto 148* 5 Double Tapered Stem Design To Avoid Stress Shielding 6 Vertical And Horizontal Grooves Provid Rotational & Axial Stability 7 12 / 14 Neck Taper 8 Stem Material Should Be Forged Ti6ai4v 9 Should Have All Sizes 10 Acetabular Cupthe Cup Should Have Trabecular Structure With 60-70% Porosity With Inter-Connected Pores 11 Cup Material Should Be Forged Ti6ai4v 12 True Hemispherical Desigh With A Greater Area Of Rim Interface Contact Offering Better Stabillity 13 Cluster Hole Design For Better Screw Fixation & Stabillity 14 Cup Sizes Should Be 44 To 60 Mm ( 2 Mm Increment ) Sizes 15 Polyethylene Linerthe Liner Should Be Xlpe ( Highly Cross Link Polyethylene ) 16 Option Of Neutral & 20* Hooded Liner 17 Liner Sizes Should Be 44 To 60 Mm 18 Femoral Metal Headthe Femoral Matel Head Should Have Shirtless Design Maximises Range Of Motion 19 Femoral Metal Head Material Should Be Cocr Alloy 20 Head Sizes Should Be 28, 32 & 36 Mm With Neck Length Of -6, -4, 0, +4 21 Bone Screwbone Screw Material Should Be Made Of Ti6al4v 22 Self Tapping Degine 23 All Sizes Of 20, 25, 30, 35, 40 & 50 Mm Length 24 Screw Diameter 6.5 Mm 25 Ceramic On Polyfemoral Stem The Femoral Stem Should - 26 Fully Ha Coated Stem With Thickness Of 150 Microns ( + / - 5 ) That Induces Smooth Osteo-Intregration. 27 Range Of Motion Upto 148* 28 Double Tapered Stem Design To Avoid Stress Shielding 29 Vertical And Horizontal Grooves Provid Rotational & Axial Stability 30 12 / 14 Neck Taper 31 Stem Material Should Be Forged Ti6ai4v 32 Should Have All Sizes 33 Acetabular Cupthe Cup Should Have Trabecular Structure With 60-70% Porosity With Inter-Connected Pores 34 Cup Material Should Be Forged Ti6ai4v 35 True Hemispherical Desigh With A Greater Area Of Rim Interface Contact Offering Better Stabillity 36 Cluster Hole Design For Better Screw Fixation & Stabillity 37 Cup Sizes Should Be 44 To 60 Mm ( 2 Mm Increment ) Sizes 38 Polyethylene Linerthe Liner Should Be Xlpe ( Highly Cross Link Polyethylene ) 39 Option Of Neutral & 20* Hooded Liner 40 Liner Sizes Should Be 44 To 60 Mm 41 Femoral Ceramic Headthe Femoral Matel Head Should Have Shirtless Design Maximises Range Of Motion 42 Femoral Ceramic Head Material Should Be Fourth Generation Advanced Ceramic 43 Head Sizes Should Be 28, 32 & 36 Mm With Neck Length Of -4, 0, +4 44 Outstanding Biocompatibility And Excellent Stability In Vivo 45 Bone Screwbone Screw Material Should Be Made Of Ti6al4v 46 Self Tapping Degine 47 All Sizes Of 20, 25, 30, 35, 40 & 50 Mm Length 48 Screw Diameter 6.5 Mm 49 Cemented Thrcemented Femoral Stem The Cemented Femoral Stem Should - 50 Highly Polished Double Tapered Design Ti Create Radial Comprehensive Loading 51 Collarless Neck To Allows Intra Operative Leg Length Adjustments 52 Easy To Use Efficient Instruments 53 The Stem Should Be Made Of Forged High Nitrogen Stainless Steel For Fatigue Resistance & Biocompatibilty 54 12 / 14 Neck Taper 55 Should Have All Sizes 56 Void Centrlizercemented Acetabular Shella Cemented Acetabular Cup Should Have Uhmwpe To Reduce Wear 57 Optimum Grooves For Improved To Contact Bone Cement 58 Metalic Ring To Check Post Operative Postion Of The Cup With The Help Of X-Ray 59 Femoral Metal Headfemoral Metel Head Material Should Be High Nitrogen Stainless Steel 60 Head Size Should Be 28 Mm Diameter With Neck Length Of -4, 0, +4, +8 61 Bone Cementmust Have Two Units Of 40 Gm. Bone Cement 62 Cement Restrictorsholud Be Made Of Uhmwpe 63 It Should Be Hollow & Designed To Allow Stem To Engage Distallywith In The Cement Mantle 64 Hybrid Thrcemented Femoral Stem The Cemented Femoral Stem Should - 65 Highly Polished Double Tapered Design Ti Create Radial Comprehensive Loading 66 Collarless Neck To Allows Intra Operative Leg Length Adjustments 67 Easy To Use Efficient Instruments 68 The Stem Should Be Made Of Forged High Nitrogen Stainless Steel For Fatigue Resistance & Biocompatibilty 69 12 / 14 Neck Taper 70 Should Have All Sizes 71 Void Centrlizerbone Cementmust Have One Unit Of 40 Gm. Bone Cement 72 Cement Restrictorsholud Be Made Of Uhmwpe 73 It Should Be Hollow & Designed To Allow Stem To Engage Distallywith In The Cement Mantle 74 Acetabular Cupthe Cup Should Have Trabecular Structure With 60-70% Porosity With Inter-Connected Pores 75 Cup Material Should Be Forged Ti6ai4v 76 True Hemispherical Desigh With A Greater Area Of Rim Interface Contact Offering Better Stabillity 77 Cluster Hole Design For Better Screw Fixation & Stabillity 78 Cup Sizes Should Be 44 To 60 Mm ( 2 Mm Increment ) Sizes 79 Polyethylene Linerthe Liner Should Be Xlpe ( Highly Cross Link Polyethylene ) 80 Option Of Neutral & 20* Hooded Liner 81 Liner Sizes Should Be 44 To 60 Mm 82 Femoral Metal Headthe Femoral Matel Head Should Have Shirtless Design Maximises Range Of Motion 83 Femoral Metel Head Material Should Be Cocrmo Alloy 84 Head Sizes Should Be 28, 32 & 36 Mm With Neck Length Of -6, -4, 0, +4 85 Bone Screwbone Screw Material Should Be Made Of Ti6al4v 86 Self Tapping Degine 87 All Sizes Of 20, 25, 30, 35, 40 & 50 Mm Length 88 Screw Diameter 6.5 Mm 89 Reverse Hybrid Thrfemoral Stem The Femoral Stem Should - 90 Fully Ha Coated Stem With Thickness Of 150 Microns ( + / - 5 ) That Induces Smooth Osteo-Intregration. 91 Range Of Motion Upto 148* 92 Double Tapered Stem Design To Avoid Stress Shielding 93 Vertical And Horizontal Grooves Provid Rotational & Axial Stability 94 12 / 14 Neck Taper 95 Stem Material Should Be Forged Ti6ai4v 96 Should Have All Sizes 97 Cemented Acetabular Shella Cemented Acetabular Cup Should Have Uhmwpe To Reduce Wear 98 Optimum Grooves For Improved To Contact Bone Cement 99 Metalic Ring To Check Post Operative Postion Of The Cup With The Help Of X-Ray 100 Femoral Metal Headfemoral Metel Head Material Should Be High Nitrogen Stainless Steel 101 Head Size Should Be 28 Mm Diameter With Neck Length Of -4, 0, +4, +8 102 Bone Cementmust Have One Unit Of 40 Gm. Bone Cement 103 Revision Thr ( Cemented ) Femoral Stem The Femoral Stem Should - 104 Highly Polished Long Cemented Stem 105 Should Have All Sizes 106 Void Centrlizercemented Acetabular Shella Cemented Acetabular Cup Should Have Uhmwpe To Reduce Wear 107 Optimum Grooves For Improved To Contact Bone Cement 108 Metalic Ring To Check Post Operative Postion Of The Cup With The Help Of X-Ray 109 Femoral Metal Headfemoral Metel Head Material Should Be High Nitrogen Stainless Steel 110 Head Size Should Be 28 Mm Diameter With Neck Length Of -4, 0, +4, +8 111 Bone Cementmust Have Two Units Of 40 Gm. Bone Cement 112 Cement Restrictorsholud Be Made Of Uhmwpe 113 It Should Be Hollow & Designed To Allow Stem To Engage Distallywith In The Cement Mantle 114 Revision Thr ( Uncemented ) Long Revision Uncemented Femoral Stemstem Should Be Made Of Ti6al4v Alloy 115 It Should Be A One Piece Mono Block Design 116 2* Taperd Straight Stem 117 Conical-In -Conical Design To Prevents Subsidence 118 Stem Should Give Uncemented Fixation In Distal Healthy Cortical Bone 119 Should Have 3 Proximal Holes For Suture Achoring. 120 The Design Should Have Blasted Surface To Promote Bone On Growth 121 It Should Have A Longitudinal Ribs For Rotational Stability 122 Stem Length Should Be 200 , 245 , 275 Mm With All Diameter 123 Multi Hole Acetabular Cupthe Cup Should Have Trabecular Structure With 60-70% Porosity With Inter-Connected Pores 124 Cup Material Should Be Forged Ti6ai4v 125 True Hemispherical Desigh With A Greater Area Of Rim Interface Contact Offering Better Stabillity 126 Multiple Holes More Then 6 For Better Screw Fixation In Avalable Bone Stock 127 Cup Sizes Should Be 44 To 60 Mm ( 2 Mm Increment ) Sizes 128 Polyethylene Linerthe Liner Should Be Xlpe ( Highly Cross Link Polyethylene ) 129 Option Of Neutral & 20* Hooded Liner 130 Liner Sizes Should Be 44 To 60 Mm 131 Femoral Metal Headthe Femoral Matel Head Should Have Shirtless Design Maximises Range Of Motion 132 Femoral Metel Head Material Should Be Cocrmo Alloy 133 Head Sizes Should Be 28, 32 & 36 Mm With Neck Length Of -6, -4, 0, +4 134 Bone Screwbone Screw Material Should Be Made Of Ti6al4v 135 Self Tapping Degine 136 All Sizes Of 20, 25, 30, 35, 40 & 50 Mm Length 137 Screw Diameter 6.5 Mm 138 Dual Mobility Thr ( Uncemented ) Femoral Stem The Femoral Stem Should - 139 Fully Ha Coated Stem With Thickness Of 150 Microns ( + / - 5 ) That Induces Smooth Osteo-Intregration. 140 Range Of Motion Upto 148* 141 Double Tapered Stem Design To Avoid Stress Shielding 142 Vertical And Horizontal Grooves Provid Rotational & Axial Stability 143 12 / 14 Neck Taper 144 Stem Material Should Be Forged Ti6ai4v 145 Should Have All Sizes 146 Femoral Metal Headfemoral Metel Head Material Should Be High Nitrogen Stainless Steel 147 Head Size Should Be 22 & 28 Mm Diameter With Neck Length Of -4, 0, +4 To Match The Bipolar 148 Dual Mobility Cupit Should Have 4 Pegs For Fixation And Rotational Stability 149 It Should Have Plasma-Sprayed Titanium Coating To Provide Primary Fixation And Secondary Bone Integration. 150 It Should Have 4 Rows Of Serrations Provide Peripheral Fixation 151 Dual Mobility Linerit Should Be Made Of Highly Cross Linked Polythylene ( Xlpe ) 152 It Should Provide High Range Of Motion 153 Dual Mobility Thr ( With Cemented Stem ) Cemented Femoral Stem The Cemented Femoral Stem Should - 154 Highly Polished Double Tapered Design Ti Create Radial Comprehensive Loading 155 Collarless Neck To Allows Intra Operative Leg Length Adjustments 156 Easy To Use Efficient Instruments 157 The Stem Should Be Made Of Forged High Nitrogen Stainless Steel For Fatigue Resistance & Biocompatibilty 158 12 / 14 Neck Taper 159 Should Have All Sizes 160 Void Centrlizerfemoral Metal Headfemoral Metel Head Material Should Be High Nitrogen Stainless Steel 161 Head Size Should Be 22 & 28 Mm Diameter With Neck Length Of -4, 0, +4 162 Bone Cementmust Have One Unit Of 40 Gm. Bone Cement 163 Cement Restrictorsholud Be Made Of Uhmwpe 164 It Should Be Hollow & Designed To Allow Stem To Engage Distallywith In The Cement Mantle 165 Dual Mobility Cupit Should Have 4 Pegs For Fixation And Rotational Stability 166 It Should Have Plasma-Sprayed Titanium Coating To Provide Primary Fixation And Secondary Bone Integration. 167 It Should Have 4 Rows Of Serrations Provide Peripheral Fixation 168 Dual Mobility Linerit Should Be Made Of Highly Cross Linked Polythylene ( Xlpe ) 169 It Should Provide High Range Of Motion 170 Acetabular Mesh 171 Reinforcement Ringh 172 Protusio Cage 173 Constrained Liner 174 Controlled Cables 175 Primary Tkrprimary Tkr With Monoblockfemoral Component 176 It Should Be Made Of Cocr Matarial 177 It Should Be Ce Certified 178 It Should Be A High Flex Design 179 It Should Have Femoral Pegs For Better Fixation 180 Tibial Componenttibia Should Have Monoblock Design To Eliminate Back Side Wear 181 Tibia Is Fixed With Poly 182 Polyethylene Insert Should Have Various Thickness Sizes 183 Tibial Component Should Be Made Of Cocr & Polyethylene Component Should Be Made Of Uhmwpe 184 Tibia Should Have The Option To Put Extension Stem 185 Extention Stem Should Be In Different Sizes Of Diameter And Length 186 Extention Stem Should Be Made Of Cocr 187 Patellaitshould Be Made Of Uhmwpe 188 It Should Br Single Peg And Dome Shaped And Should Have Different Sizes 189 Bone Cementmust Have One Unit Of 40 Gm. Bone Cement 190 Primary Tkr Femoral Componentit Should Be Made Of Cocr Matarial 191 It Should Have Reduce Anterior Flange 192 It Should Be A High Flex Design 193 It Should Have Femoral Pegs For Better Fixation 194 Femoral Size Should Be Available In 8 Different Sizes To Match The Anatomy Of Different Sizes Patients 195 The Femoral Sizer Should Have Option To Change External Rotation Like 3, 5, 7, 9 Degree 196 Tibial Componentit Should Be Made Of Cocr Matarial 197 Should Have Continuous Peripheral Rim 198 Should Have Dove Tail Locking Mechanism 199 Tibia Should Be Highly Polished To Reduce Backside Wear Rate 200 Should Have 7 Diffrent Sizes 201 Tibia Should Have The Option To Put Extension Stem 202 Extention Stem Should Be In Different Sizes Of Diameter And Length 203 Extention Stem Should Be Made Of Cocr 204 Polyethylene Tibial Insertitshould Be Made Of Uhmwpe 205 It Should Be A Deep Dish Design 206 It Should Be Enhanched Post & Cam / Spine Design 207 It Should Have Deeper Anterior Cut-Out For Enhanced Patellar Tracking 208 Insert Thickness Should Start From 7 Mm 209 Patellaitshould Be Made Of Uhmwpe 210 It Should Have Three Peg And Dome Shaped And Should Have Different Sizes 211 It Should Be Available In 6 Sizes 212 Bone Cementmust Have One Unit Of 40 Gm. Bone Cement 213 Tibial Extension Rodshould Be Made Of Cocr Material 214 Should Be Available In Various Diameter And Length 215 Revision Tkrfemoral Componentshould Be Compatible With Extention Rod 216 Should Have Stem Orientation Marker On Stem Base For Accurate Oriantion Of Stem 217 It Should Be Made Of Cocr Matarial 218 It Should Have Reduce Anterior Flange 219 It Should Be Available In 8 Sizes 220 Tibial Componentshould Be Compatible With Extention Rod 221 Keel Angle Of 3* 222 Should Have Stem Orientation Marker On Stem Base For Accurate Oriantion Of Stem 223 Should Have Provision For Screw Fixation Of Tibial Tray With Tibial Augment 224 Should Be Available In 7 Sizes 225 Polyethylene Tibial Insertitshould Be Made Of Uhmwpe 226 It Should Be A Deep Dish Design 227 It Should Be Enhanched Post & Cam / Spine Design 228 It Should Have Deeper Anterior Patella Relief 229 Insert Thickness Should Start From 7 Mm 230 Option For Post Peg Strenghens Of Tibia Insert Post 231 Screw Hole Postion Provides Space For Screw 232 Jump Distance Of 23 Mm 233 Tibial Insert Pegmaterial Should Be Ti6al4v 234 To Give Secondary Locking To Stem And Tibial Tray 235 Should Have Triangular Pocket To Accept Standard Torque Wrench Triangle Tool To Provide Torque 236 Offset Stemmaterial Should Be Ti6al4v 237 Should Have 4 Radial Long Grooves To Ensure Bone Gripping 238 Bullet Profiled Geometry At Distal End 239 Should Have Different Offset Option 240 Femoral Stem Screwmaterial Should Be Ti6al4v 241 To Give Secondary Locking To Stem With Femur 242 Femoral Augmentmaterial Should Be Ti6al4v 243 Should Have Various Sizes Of Distal And Posterior Augment 244 Should Have Provison For Screw Fixation Of Tibial Tray With Tibial Augment 245 Femoral Augment Screwmaterial Should Be Ti6al4v 246 To Give Secondary Locking To Femoral Augment With Femoral Component 247 Femoral Augment Plugmaterial Should Be Ti6al4v 248 This Plug Is To Compact Fitment With Femur When Femoral Augment Is Not Use 249 Tibial Augmentmaterial Should Be Ti6al4v 250 It Shape And Geometry Should Be Close To Natural Bone 251 Should Have Keel Slots For Anti Rotation Locking With Keel Feature Of Tibial Tray 252 Tibial Tray Augment Screwmaterial Should Be Ti6al4v 253 For Secondary Locking Of Tibial Augment To Tibial Component 254 Tibial Tray Base Plugmaterial Should Be Uhmwpe 255 It Should Ensure Fitment In Tibial Tray When Tibial Tray Augment Is Not In Use 256 Bone Cementmust Have One Unit Of 40 Gm. Bone Cement 257 Primary Tkr ( For Metal Allergy Patients ) Femoral Componentit Should Be Coated With Tinbn To Prevent Metal Allergy 258 Material Should Have Improved Biocompatibility 259 Should Have Long Term Chemical Stability 260 It Should Have Reduce Anterior Flange 261 It Should Be A High Flex Design 262 It Should Have Femoral Pegs For Better Fixation 263 Femoral Size Should Be Available In 8 Different Sizes To Match The Anatomy Of Different Sizes Patients 264 The Femoral Sizer Should Have Option To Change External Rotation Like 3, 5, 7, 9 Degree 265 Tibial Componentit Should Be Coated With Tinbn To Prevent Metal Allergy 266 Material Should Have Improved Biocompatibility 267 Should Have Long Term Chemical Stability 268 Should Have Continuous Peripheral Rim 269 Should Have Dove Tail Locking Mechanism 270 Tibia Should Be Highly Polished To Reduce Backside Wear Rate 271 Should Have 7 Diffrent Sizes 272 Tibia Should Have The Option To Put Extension Stem 273 Extention Stem Should Be In Different Sizes Of Diameter And Length 274 Extention Stem Should Be Made Of Cocr 275 Polyethylene Tibial Insertitshould Be Made Of Uhmwpe 276 It Should Be A Deep Dish Design 277 It Should Be Enhanched Post & Cam / Spine Design 278 It Should Have Deeper Anterior Cut-Out For Enhanced Patellar Tracking 279 Insert Thickness Should Start From 7 Mm 280 Patellaitshould Be Made Of Uhmwpe 281 It Should Have Three Peg And Dome Shaped And Should Have Different Sizes 282 It Should Be Available In 6 Sizes 283 Bone Cementmust Have One Unit Of 40 Gm. Bone Cement 284 Custom Made Prostesis For Management Of Malingnancy Ofhip 285 Knee 286 Total Shoulder Arthroplastyhumeral Stem 287 Humeral Head 288 Hemi Shoulder Arthroplastyhumeral Stem 289 Humeral Head 290 Reverse Shoulder Arthroplastyglenosphere 291 Shoulder Cup 292 Cemented Reverse Shoulder Arthroplastyglenosphere 293 Shoulder Cup 294 Peripheral Screw 295 Humeral Stem 296 Spacer For Knee Surgeryantibiotic Cement For Spacershould Be High Viscosity Pmma Bone Cement With Chlorophyll Pigmentwith Doubleantibiotic ( Gentamicin & Vancomycin ) And Should Have Zinc Based Maker Radiopaque- 40 Gm 297 Should Be High Viscosity Pmma Bone Cement With Chlorophyll Pigmentwith Double Antibiotic ( Gentamicin & Clindamycin ) And Should Have Zinc Based Maker Radiopaque- 40 Gm 298 Disposable Spacerdisposable Moulds For Knee Articulating Spacer With Option For Adjusting Height For Tibial Component For The Spacers ( Size Small ) . 299 Disposable Moulds For Knee Articulating Spacer With Option For Adjusting Height For Tibial Component For The Spacers ( Size Medium ) . 300 Disposable Moulds For Knee Articulating Spacer With Option For Adjusting Height For Tibial Component For The Spacers ( Size Large ) . 301 Powder Free Latex Glovesmaterial Should Be Natural Rubber Latex. 302 Internal Glove Surface Should Be Polymer Coated. 303 Gloves Should Have Zinc Diethyldithiocarbamate ( Zdec ) , 304 Zinc Dibutyldithiocarbamate ( Zdbc ) . 305 Gloves DonT Have Primary Skin Irritation. 306 Gloves Should Have Anti-Allergic Properties. 307 Gloves Should Have Gamma Irradiation Sterilization Method. 308 Manufactur Should Have En 556, Iso 11137-Part 1, Iso 13485 Certifications. 309 Powder Free Latex Underglovesmaterial Should Be Natural Rubber Latex With Contains Glycerol And Dimethicone Properties. 310 External Glove Surface Should Have Smooth With Micro-Textured Finish And Internal Glove Surface Coated With Hydrasofttm Technology. 311 Cuff Style Should Have Beaded With Surefittm Technology. 312 Manufactur Should Have En 556, Iso 11137-Part 1, Iso 13485 Certifications. 313 Gloves Should Have Zinc Diethyldithiocarbamate ( Zdec ) , 314 Zinc Dibutyldithiocarbamate ( Zdbc ) . 315 Gloves Should Have Anti-Allergic Properties. 316 Gloves Should Have Gamma Irradiation Sterilization Method. 317 Ioban 318 Bone Cement 319 Gentamicin Bone Cement 320 ( Cacium Sulphate Beads ) Injectable Fully Re-Sorable Synthetic Bone Graft Substitutes ( Beta-Tricalcium Phosphate And Calcium Sulphate, 5Cc Paste 321 Injectable Fully Re-Sorable Synthetic Bone Graft Substitutes ( Beta-Tricalcium Phosphate And Calcium Sulphate, 10Cc Paste 322 Hip U Drape 323 Vaccu M Suction Cannula 324 Chest Arm Immobiliser 325 Shoulder U Drape And Cling O Drape 326 Disposable Gown 327 Long Knee Brace 328 Pulse Lavage 329 Saw Blade
