|
| 1 | Anterior Cervical Plating System (Variable Angle Screws System) |
| 2 | Single plate must provide the option of rigid, toggling and hybrid construct. |
| 3 | The angulations must be of 28 degree cephalad /caudal range with 8 degree of off set. |
| 4 | Locking mechanism of the screws must be one step locking should block the screws from coming out. |
| 5 | The thickness of plate must be 2.0mm OR less and width 16.5 mm. |
| 6 | The core diameter of the screws must be 3mm with outer diameter being 4.0mm and 4.5mm. |
| 7 | The plates must be available in all sizes. I level, II level, III level. |
| 8 | All the screws must be colour coded and available in self tapping as well as self drilling options. |
| 9 | Cervical Peek Cage |
| 10 | The cage must be radiolucent with sharp teeth inter body fusion cage system of implants and instruments designed for anterior cervical interbody fusion (ACIF) and should be compatible with anterior cervical plating system (ACP). |
| 11 | The cages must be Curved cages, which mimic the curvature of the healthy endplate. |
| 12 | The cages must be Wedge-shaped cages, which match the flattened degenerated end plate. |
| 13 | All implants must be 15mm wide and 12.5mm deep and are supplied sterile pre-packed. |
| 14 | The available implant heights must be 5mm, 6mm, 7mm, 8mm, 9mm and 10mm. |
| 15 | Expandable Cervical Corpectomy cages |
| 16 | Expandable vertebral body replacements For Cervical & upper Thoracic (C3-T2) Spine |
| 17 | Should have continuous expansion system so that height can be achieved |
| 18 | Should have rapid & controlled in situ expansion |
| 19 | Should have locking clip to secure the expanded implant to prevent micro movements. |
| 20 | Should have foot print of 11.9 mm X 15.0 mm |
| 21 | Should achieve height from 17mm to 70mm & angle from 4.5 to7 degree |
| 22 | Should be made of medical grade titanium material |
| 23 | Locking Cervical Cage With Plate |
| 24 | Expandable vertebral body replacements cage with in built cervical plate for fixation in situ with in the system for Cervical & upper Thoracic (C3-T2) Spine. |
| 25 | Should have continuous expansion system so that desirable height can be achieved |
| 26 | Should have rapid & controlled in situ expansion with plate providing the option of rigid, toggling and hybrid construct |
| 27 | The plates must be available in all sizes. I level, II level, III level. |
| 28 | Should be made of medical grade titanium material |
| 29 | Locking mechanism of the plate screws must be one step locking which should block the screws from coming out. |
| 30 | The core diameter of the screws must be 3mm with outer diameter being 4.0mm and 4.5mm. |
| 31 | All the screws must be colour coded and available in self tapping as well as self drilling options. |
| 32 | Cervical Disc replacement |
| 33 | Superior and inferior implant plate made of cobalt-chromium molybdenum alloy according ISO 5832-12. |
| 34 | Plasma-sprayed titanium coating. |
| 35 | Inlay made of ultra-high molecular weight polyethylene (UHMWPE) |
| 36 | Ball and socket principal – Metal on polymer. |
| 37 | Modular anatomical design. |
| 38 | Optimal primary stability due to H keel anchorage of the a prosthesis in the vertebral body. |
| 39 | Anatomical foot print design for maximum endplate coverage. |
| 40 | Six different footprints available for optimal coverage of the vertebral end plate : M, MD, L, LD, XL, XLD. |
| 41 | Three different heights (5, 6 and 7mm) allowing adjustments to the individual dimensions of the patient’s disc. |
| 42 | Lumbar Disc Replacement |
| 43 | Superior and inferior implant plate made of cobalt-chromium molybdenum alloy. |
| 44 | Ball and socket principle- Metal on Polymer. |
| 45 | Inlay made of ultra-high molecular weight polyethylene (UHMWPE) |
| 46 | There must be Vacuum Plasma spray Coating |
| 47 | There must be primary stability through central keel. |
| 48 | Angulations selection must be from: |
| 49 | Superior Plate : 3 °, 6° and 11° |
| 50 | Inferior plate : 0°, 3° and 8° |
| 51 | Combinations: 3°, 6°, 9°, 11° |
| 52 | Posterior Cervical Fixation System (Lateral Mass Fixation System) |
| 53 | The system should have cancellous bone and cortex screws. |
| 54 | The system should have locking screws for angularly stable locking and fixation of the rod. |
| 55 | The system must have self-tapping and self-drilling screws. |
| 56 | The system must have 3.5mm Ti Rod. |
| 57 | The system should have OC fusion option. |
| 58 | The system should offer hooks. |
| 59 | The system should have Cancellous profile bone screws :III. 3.5mm with 2mm increments. |
| 60 | The system should have Cancellous profile bone screws :IV. 4.0 mm with 2mm increments |
| 61 | The system should have Cortical profile bone screws :3.5mm with 2mm increments. |
| 62 | The system should have Rod = 9mm. |
| 63 | Shaft Screws should have 10mm unthreaded portion Rods :IV. 3.0mm , 3.5mm Ti Rod. |
| 64 | Shaft Screws should have 10mm unthreaded portion Rods :V. 3.5mm / 5.0mm Ti Rod. |
| 65 | Shaft Screws should have 10mm unthreaded portion Rods :VI. 3.5mm / 6.0mm Ti Rod. |
| 66 | The system should have Transverse connector: 60mm and 75 mm. |
| 67 | The system should have 3.5mm Ti Transverse Bar. |
| 68 | The system should have Occipital Plate/Rods. |
| 69 | Mesh Cage for vertebral body replacement The mesh cage must be available in the following specifications and must come along with press fit end rings: |
| 70 | Mesh, round (for Cervical)) |
| 71 | 10mm: heights 4-18mm |
| 72 | 12mm: heights 4-88mm |
| 73 | 15mm: heights 8-88mm |
| 74 | Corresponding press fit end rings, round- Angles of 00 or 2.50 in 10, 12 and 15mm diameter options. |
| 75 | Mesh, oblong (For thoracic and lumbar region) –- Angles of 00 or 2.50 in 10, 12 and 15mm diameter options. |
| 76 | Mesh, oblong (For thoracic and lumbar region) –- Angles of 00 or 2.50 in 10, 12 and 15mm diameter options. |
| 77 | Mesh, oblong (For thoracic and lumbar region) –Dimensions: 17X22mm, 22X28mm and 26X33mm – Heights: 6-88mm End Rings, oblong |
| 78 | Angles of 00 or 50for the corresponding dimensions; 17X22mm, 22X28mm and 26X33mm. |
| 79 | CV Junction fixation System (occiput to C2) |
| 80 | The system should have medial and lateral plates of 50& 60mm, one & two hole clamps which must allow the medial and lateral rod placement, and should be able to give 15 degree of screw angulations. |
| 81 | The system must have straight and pre contoured ‘3.5mm rods. |
| 82 | The system should have blunt 4.5mm occipital screws Qrid 5mm emergency screws with 4-18mm lengths. |
| 83 | The system should have screwdriver shaft stardrive T15, self holding, with cordan joint as well as straight, for Quick coupling. |
| 84 | The system must have the templates of occipital plates to avoid wrong plate selection. |
| 85 | The system should have simple locking mechanism of each screws. |
| 86 | The system should have tap for better screw purchase and 2mm torque limiting screw driver for final tightening. |
| 87 | Following components should be available in system :Occipital plate (t or y shaped) |
| 88 | Following components should be available in system :Transverse Connector |
| 89 | CV Junction fixation System (C1 to C2) |
| 90 | The system should be versatile, must have set of 6 screws and two rods |
| 91 | The system must have straight and pre contoured ‘3.5mm rods. |
| 92 | Titanium made 3.5 mm diameter, polyaxial screw of different lengths from 12 mm to 36 mm length for posterior cervical fixation. |
| 93 | The system should have tap for better screw purchase and 2mm torque limiting screw driver for final tightening. |
| 94 | Joint spacer of various sizes made of titanium |
| 95 | Zero profile anterior cervical interbody fusion devices |
| 96 | The implant should act as stand alone interbody fusion device for cervical spine with the benefits of as interbody spacer and as anterior cervical plate. |
| 97 | The implant must be a combination ‘of plate’ and space & where the plate must automatically align when inserted. |
| 98 | The implant must have radio opaque marker for posterior visualization during imaging and teeth on superior and anterior surface for initial stability. |
| 99 | Spacer Component must be made of PEEK optima (polyetherketone). |
| 100 | The implant must have one step locking screw and screws should form a bone wedge with 40° 5° cranial/caudal angle with 2.5° medical lateral angle. |
| 101 | The screw must come with self tapping and self centering options with titanium alloy material (Ti-6AI-7NB) |
| 102 | The screws must come in 3.0mm diameter & must be colour coded by screw length varying from 12, 14 & 16mm. |
| 103 | Implant’s triobular thread cutting flutes should be self centering. |
| 104 | The implants must come in parallel lordotic and convex implants sets with heights varying from 5mm to 12mm with an increment of 1mm each. |
| 105 | Odontoid Screw |
| 106 | Screw should made up of Tianium Alloy (TAN). |
| 107 | Screw should be Cannulated. |
| 108 | Screw should be self-drilling. |
| 109 | Screw should consist of 12mm short thread. |
| 110 | Screw should be of 3.5mm Ø. |
| 111 | Screw should be available in the length of 36mm to 50mm. |
| 112 | The whole system should thus enable the following- Help in preservation of atlantoaxial mobility with lag screw compression technique. |
| 113 | With wire guiding ensures precise positioning of Implants & instruments. |
| 114 | Odontoid Screw |
| 115 | Top loading pedicle screw and rod system for the posterior stabilization of the lower back. |
| 116 | The pedicle screw system must have polyaxial as well as monoaxial head for case specific manipulation. |
| 117 | The polyaxial head should offer 25 degree of angulations about the axis of the screw. |
| 118 | The pedicle screw system must have dual core screws for rapid instertion and secure anchorage in both, cortical and cancellous bone. |
| 119 | The screws must be colour coded |
| 120 | Single step locking mechanism. |
| 121 | The option of achieving case specific lordotic and parallel compression with the same system. |
| 122 | Curved rods in 6mm diameter from length 70mm to 300mm. |
| 123 | Straight rod in 6mm diameter from 80mm to 150mm. |
| 124 | Screw dimensions should be 4.5mm, 5.5mm, 6.5mm diameter LENGTH 30mm, 35mm, 40mm, 45mm, 50mm. |
| 125 | Monoaxial, Multiaxial and Reduction screws should be available. With provision of persuader for spondylo-listhesis reduction. |
| 126 | Trans Foraminal Lumbar Interbody Fusion |
| 127 | The cage must be radiolucent made up of PEEK – optima material with sharp teeth designed for Trans foraminal Lumbar Interbody Fusion (TLIF). |
| 128 | The cage must have rounded tapering edges allowing easy insertion thus minimizing injuries to end plates and neural structures. |
| 129 | The cage must have 3 titanium markers (Two lateral, one central) to indicate the cage position on x-ray. |
| 130 | The cage must have injection moulded roughened surface promoting bone integration and on growth. |
| 131 | The cages must have biconvex shape providing even distribution of compressive forces along the endplates thus stability. |
| 132 | The cage must have one broad graft hole and two lateral holes. |
| 133 | Implants must be available in two footprints sizes 10x27mm, 11mm, 12mm, 13mm, 15mm, 17mm. |
| 134 | Posterior Lumbar Interbody Fusion |
| 135 | The system should be able to provide:Adequate stability- Restores disc height- Restores Lordosis- Preserves the integrity of the vertebral body endplates- Provides an optimized fusion bed |
| 136 | It should be radiolucent interbody fusion system of implants and instruments for posterior Lumbar Interbody Fusion (PLIF). |
| 137 | Cage must be made of PEEK optima® material facilitating radiographic assessment of fusion. |
| 138 | Cage must have two x-ray markers integrated into the cages to enable easy visualization of their position postoperatively. |
| 139 | PEEK material used must contain no carbon fibres, thereby reducing the risk of systemic uptake and local inflammatory response. |
| 140 | Cages must be available in 6 heights in 2 mm increments, and should be supplied sterile pre-packed. |
| 141 | The optimal anatomical shape and supportive superior and inferior surface design of the cage should reduces the risk of subsidence into the adjacent vertebrae. |
| 142 | The cage should have perforated structure which must allows for bony ingrowth through the cage and the design must ensures optimal implant-to-endplate contact. |
| 143 | Cage must be designed for an optimal fit into the natural concavity between two adjacent vertebral bodies. |
| 144 | Cage must have teeth on the superior and inferior surfaces providing additional primary stability. |
| 145 | The cage must be injection moulded PEEK cage so that it has roughened surface, which is superior to a machined PEEK surface in that promotes bone integration and ongrowth. |
| 146 | Anterior stabilization of thoracolumbar spine |
| 147 | The implant should provide anterior stabilization to thoracolumber spine. |
| 148 | The implant should provide the plate and rod construct and be designed to be used along with either bone graft or with a vertebral body replacement. |
| 149 | The implant should come with instruments which are designed for use in open, minima-open or endoscopically assisted approaches. |
| 150 | The implants should come with telescopic mechanism with the facility of in situ compression and distraction. |
| 151 | The implants should comein the following sizes :Mono-segmental : 29-33 mm, 31-37mm, 35-45mm, 41-57mmBi-segmental : 53-71mm, 66-86mm |
| 152 | Height of the implant above bone without posterior locking screws should be 7.7mm and with posterior locking screws should be 9.0 mm and convergence of screws should be of 7.0° |
| 153 | The posterior screws should be of 7.0 mm diameter, cannulated for use with k-wire, dual core and double lead. |
| 154 | The implants should come with polyaxial bushings which allow an angulation of 15° for screw insertion tailored to the individual anatomical situation. |
| 155 | Expandable Thoracic and Lumber Corpectomy cages. |
| 156 | Expandable vertebral body replacementsFor Lumber & Lower Thoracic (T5- L4) SpineFor mono, bi &trisegmental fusionShould have rapid & controlled in situ expansion.Should have ratchet system so that height can be achievedShould have foot print of22 X 21 mm and 25 X 28 mmShould achieve height from 20mm to 73mm & angle from -5°, 0°, 10°, 20°, -6°.Should be in Titanium TAN alloy. |
| 157 | Low Profile Neuro (Mini plates) |
| 158 | A Plating systems to offer Neuro surgeons a choice do rigid fixations of craniotomies and other cranial procedures which should be very low profile in nature and be a Complete system for a broad spectrum of cranial indications having following specifications technically –• A modular system having autoclavable module for instruments and implants• All plates are should be 0.5mm thick and implants should be offered in various shapes for an optimal and appropriate choice in the procedure there should include basic plates, frame plates, adaption plates-available in multi holes, burr hole covers, burr hole covers for shunt and mesh plates in various dimensions (both 0.4mm & 0.6mm should be available).• Temporal & mastoid region should have dedicated plates for use.• Screw/plate profile should be not more than 0.6mm for minimum palpability.• Despite the minimum profile, the plate strength should be comparable to thicker cranial plates. • The screws should be designed for hard cranial bones and should have a plus Drive recess for excellent screw retention in the shaft.• The screws should have a flat head and should be easy to pick up with a self holding shaft, means should have adhesive property with screw holder.• The screws must be self-drilling and self-tapping types.• Screw lengths should be available in 3-6mm.• Emergency screws having different colour than regular screws.• The screw driver handles with hexagonal coupling.• Long (66mm) and short (42mm) shafts which should be self holding in nature and compatible with all screws in the system and also fit the handle instantly.• Holding instrument for plates must be a part of the instrumentstion.• A special cutter for strut & mesh plares to be provided in the system.• Appropriate 1.3mm drill bits of 4mm & 6mm depth having stops.• Appropriate Lable clips for the screws which should be replaceable. |
| 159 | Burr hole cover plate |
| 160 | Cranial fixation system for craniotomized bone flaps and bone fragments in neurosurgery (equivalent to Craniofix) |
| 161 | HA coated Multiaxial screws for osteoporotic spine fixation |
| 162 | • (Implants compatible with vertebral column manipulation and vertebral body rotation rotation instrumentation)• Open ended Reverse thread Top loading Top Tightening fixed Angle screws (assorted size) 4.5mm, 5.5mm, 6.5mm with breako off type of plug.• Open ended Reverse thread Top loading Top Tightening Multiaxial screws (assorted size) 4.5mm, 5.5mm, 6.5mm Reduction Screws 4.5mm, 5.5mm, 5.5mm, 7.5mmBreak off plugsReduction Break off plugsTransverse connectors (assorted size)Staples 13mm, 15mm, 17mmDouble Rod Staple 21, 23, 25mm rostral and CaudalDomino’s axial connectorsReverse thread Top loading Top Tighteneing pediatric Hooks-upper thoracic, laminar, Pedicular small and medium, right/left offset, Angled hooks. |
| 163 | Percutaneous Pedicular screw Systemsfor multilevel fixation (For MIS system) |
| 164 | 6. The minimal invasive pedical screw system must be offered that is suitable for offset 3 levels of fixation. 7. The raw material used for the implant should be Titanium . 8. MIS screws have to be cannulated, which designed to work in tandem with expandable retractor that facilitates screw implantation in spite of reduced visualisation within narrower working channels.9. The placement of the rod in MISS is crucial as the surgery is Percutaneous. 10. The Rods should be precontoured. |
| 165 | Bone Substitute |
| 166 | Bone Substitutes should be made up of combination of BTCP (85%) and HA(15%) having capability of re-generating new bone twice as fast as hydroxyapatite.It should also have a dual mechanism of action.It should be in sterile packing and one unit should contain 10cc.It should be available in the form of Block, Cylinder, Wedge, Granules, Strip, Paste. |
| 167 | Digital vertebroplasty -Kit |
| 168 | Consists of: cement delivery system, Biopsy trocar/canula and vertebroplasty cement |
| 169 | Digital kyphoplasty-Kit |
| 170 | Consists of: Balloon placements and cement delivery system, Biopsy trocar/canula kyphoplasty cement, Inflatable balloon – 15mm/20mm, Pressure gauge syringe. |
| 171 | INUSE BONE GRAFT (small, medium, large) |
| 172 | SUBLAMINAR TITANIUM CABLE SYSTEM |
| 173 | The Cable should be made of multiple strands of titanium to enable better grip over tissues.The individual packaging should be available in double cable and Single Cable individual sterilized packaging.It should be malleable.It should with stand twisting and knotting without loosing its tensile strength.It should have a builtin crimp to enable fixation without having to tie a knot and have optimal tension after fixation.It should be of Medical Grade Titanium and should be artifact free on MRI and CT.Titanium double cable with integral crimpTitanium single cable with integral crimpProvisionalcrimps – 2NosCable Tensioner – 1NosCable Cutter-1NosGraphic Sterlization case |
| 174 | SHUNT SYSTEM: |
| 175 | 1) Omaya Reservoir (Puding type)2) Ventriculo Peritoneal Shunt (equivalent to VP shunt by Surgiwear/Hindustan Latex Pvt Ltd.)d. Lowpressuree. Medium pressuref. High pressure5) Programmable Ventriculo peritoneal shunt with variable adjustable pressure with at least 8-10 i. variable pressure settings, non invasive, no mandatory but optional x ray ii. confirmation of pressure settings, MRI compatible6) Theco-peritoneal shunt7) External Ventricular drainage systemExternal Lumbar Drainage system |
| 176 | Aneurysm Clips |
| 177 | vii. Sugita typeviii. Made of titanium or MRI compatible materialix. Both temporary and permanent typex. Fenesterated/ non fenestratedxi. In various shapes straight/ up curve/downcurve/bayonet type/ right angle bent/ 45 angled/ lateral bentxii. Sizes mini/ 5mm/6mm/7mm/8mm/ 9 mm/10 mm/ 12 mm in each shape and type mentioned aboveWith clip applicators availability for both permanent and temporary clips of variable sizes at the time of surgery |
| 178 | Disposable items for RFTA machine compatible withInomed made model |
| 179 | Patient plate with wire |
| 180 | RF Reusable electrode 10 cm with wire |
| 181 | RF Disposable Cannula 10 cm long , 10mm Tip, 22G |
| 182 | RF Disposable Cannula 10 cm long , 5mm Tip, 22G |
| 183 | RF Disposable Cannula 10 cm long , 10mm Tip, 20G |
| 184 | RF Disposable Cannula 10 cm long , 5mm Tip, 20G |
| 185 | RF Disposable Cannula 5 cm long , 4mm Tip, 22G |
| 186 | RF Disposable Cannula 15 cm long , 10mm Tip, 20G |
| 187 | RF Reusable electrode 15 cm with wire |
| 188 | RF Reusable electrode 5 cm with wire |
| 189 | Disposable items for Electric high speed drill Stryker made |
| 190 | cutter blade |
| 191 | Diamond burr of various size |
| 192 | cutter burr of various sizes |
| 193 | Irrigation cassette with tubing disposable |
| 194 | Burr Perforator |
| 195 | 5100060001 PERFORATOR BIT |
| 196 | 5820010010 Cutting bur 1mm |
| 197 | 5820010220 Cutting bur 2mm |
| 198 | 5820010230 Cutting bur 3mm |
| 199 | 5820010240 Cutting bur 4mm |
| 200 | 5820010250 Cutting bur 5mm |
| 201 | 5820010260 Cutting bur 6mm |
| 202 | 5820012010 ROUND DIAMOND BUR 1.0MM |
| 203 | 5820012020 ROUND DIAMOND BUR 2.0MM |
| 204 | 5820012030 ROUND DIAMOND BUR 3.0MM |
| 205 | 5820012040 ROUND DIAMOND BUR 4.0MM |
| 206 | 5820012050 ROUND DIAMOND BUR 5.0MM |
| 207 | 5820012060 ROUND DIAMOND BUR 6.0MM |
| 208 | 5407FA2023 FA2 2.3MM TAPERED ROUTER 16MM |
| 209 | 5290075000 CORE ESSX/HUMMER IRRIGAT. CAS. ( Pk Of 10) |
| 210 | 5290640100 4.0MM 60 DEG. AGG SERR BLADE ( Pk Of 5) |
| 211 | 5290740200 4.0MM CONVEX ANGLED AGGRESSIVE ( Pk Of 5) |
| 212 | 5290740100 4.0MM ANGLED AGGRESSIVE BLADE ( Pk Of 5) |
| 213 | 5290645000 4.0MM AGGRESSIVE SERRATED ( Pk Of 5) |
| 214 | 5290011000 4.0MM AGGRESSIVE BLADE 11CM ( Pk Of 5) |
| 215 | 5290440100 4.0MM 40 DEG. AGG SERR BLADE |
| 216 | Miscellaneous Items: |
| 217 | Bone cement Depuy or equivalent for cranioplasty |
| 218 | Customised Peek cranioplasty impant for better reconstruction of craniectomy defect |
| 219 | Indocyanine green dye 20ml/50ml |
| 220 | 5 amino levulanic acid dye 20ml/50ml |
| 221 | Polyvinyl alcohol Nasal packing with thread |
| 222 | Bipolar cable: (a) Compatible with Alan made cautery(b) compatible with Storz endoscopy cautery |
| 223 | Bipolar forceps non sticky tip bayonet / straight :(a) Compatible with Alan made cautery(b) compatible with Storz endoscopy cautery |
| 224 | Subcutaneous ventriculo peritoneal shunt passer (paediatric) |
| 225 | Subcutaneous ventriculo peritoneal shunt passer (adult) |
| 226 | Disposable Microscope cover for Pentero 900 |
| 227 | Autoclaveble OT shoes |
| 228 | NEURO SURGERY INSTRUMENTS SET |
| 229 | CUSHING DURAL HOOK 140mm |
| 230 | GRUENWALD FORCEPS BAYONET SHAPE,7\" T.C. TIP - |
| 231 | MAYO HEGARS NEEDLE HOLDERS 200mm |
| 232 | HEGAR NEEDLE HOLDER WITHGROOVE 20CM |
| 233 | INGE LAMINA SPREADER JAWS OPENTO 1-1/4\" LENGTH 6\" - |
| 234 | FERRIS SMITH I.V.D RONGUERS CD.UP180mm 3mmx 10mm |
| 235 | FERRIS SMITH I.V.D RONGUERS CD.UP180mm 4mm x 10mm |
| 236 | BRAIN CANNULA8MM |
| 237 | BRAIN CANNULA10MM |
| 238 | MAYOS SCISSORS CD. 160mm |
| 239 | VENTRICULAR CANNULA 2 X 70MM DIA. |
| 240 | - DO -, 2.5 X 70MM DIA. |
| 241 | GERALD DRESSING FORCEPS BAYONETPLAIN 190mm |
| 242 | HUDSONS BRACE |
| 243 | YASARGIL MICRO SCISSORSTRAIGHT 185mm |
| 244 | JACOBSON MICRO SCISSORCURVED 185mm |
| 245 | POTTS-YASARGIL MICRO SCISSORANGLED 45 DEG, 185mm |
| 246 | MICRO SUTURE TYING FORCEPS ST.TIP0.3mm x 150mm |
| 247 | MICRO SUTURE TYING FORCEPS CD.TIP0.3mm x 150mm |
| 248 | MICRO SUTURE TYING FORCEPS ST.TIP0.5mm x 180mm |
| 249 | MICRO NEEDLE HOLDER WITH CATCHST. 185mm |
| 250 | YASARGIL LIGATURE GUIDE & CARRIER BALL TIPPED CURVED 185MM |
| 251 | YASARGIL MICRO RASPATORY MICRODISSECTOR ANGLED 185mm |
| 252 | DANDY SCALP HAEMOSTATIC FORCEPSCURVED 140mm |
| 253 | CUSHING DISSECTING FORCEPS BAYONETSHAPE PLAIN 180mm |
| 254 | HALSTED MOSQUITO ARTERY FORCEPS CD.125mm |
| 255 | ADSON CEREBELLER RETRACTOR SHARP,ANGLED 180mm |
| 256 | ADSONS DISSECTING FORCEPS PLAIN125mm |
| 257 | ADSONS DISSECTING FORCEPS TOOTHED125mm |
| 258 | ADSONS DISSECTING FORCEPS TOOTHED150mm |
| 259 | CUSHING DISSECTING FORCEPS BAYONETSHAPE TOOTHED 200mm |
| 260 | WULLSTIEN S/R RETRACTOR3 X 3 PRONGS BLUNT 13CM SISCO |
| 261 | RUSKIN BONE RONGUERS D/A CD.4mm x185mm |
| 262 | PENFIELD DISSECTOR DOUBLEENDED 175mm 1,2,3,4 no. |
| 263 | SCHIMIDER TAYLOR SCISSOR16CM |
| 264 | MALLABLE BRAIN SPATULA NARROW WITH SERRATED 200mm |
| 265 | MALLEABLE RETRACTOR of various sizes |
| 266 | Disc Forceps in various sizes |
| 267 | Bone Punches (Ronguers) of various sizes |
| 268 | GILLIES TISSUE FORCEPS 1x2 TEETH150mm |
| 269 | MICRO ADSONS DISSECTING FORCEPSTOOTHED 180mm |
| 270 | YASARGIL MICRO SCISSORSTRAIGHT 225mm |
| 271 | YASARGIL MICRO SCISSOR BAYONETSTRAIGHT 165mm |
| 272 | JACOBSON MICRO PROBE WITH BALLTIP (COUNTER PRESSER) 185mm |
| 273 | CLOWARD CERVICAL VERTEBRA SPREADER |
| 274 | CLOWARD LARGE CERVICAL RETRACTORSET OF 10 BLADES 255mm |
| 275 | MAYO HEGAR NEEDLE HOLDER T/C TIP150MM |
| 276 | TOENNIS-ADSON SCISSORS TC TIPCD. 175MM |
| 277 | METZENBAUM SCISSORS TC TIP ST200mm |
| 278 | COTTLE CHISEL 4mm x 180mm |
| 279 | LANDOLT TUMOUR GRASPING FORCEPSBLUNT SHAFT 200mm |
| 280 | MALLEABLE BRAIN SPATULAS, 8\" |
| 281 | CASPAR LONGUS COLLI MUSCLEDISSECTOR 175MM |
| 282 | FARAZIER DURAL HOOK 5\" |
| 283 | Suction canula set of four, No. 1,2,3,4 |
| 284 | Scalpal handle bayonet shape 210mm 8.50 inch |
| 285 | Cairns neuro scissors |
| 286 | ListonBone cutting Forceps 275 mm curved on flat |
| 287 | Hartman crocodile brain biopsy forceps 175mm |
| 288 | ----------------------do-------------------------------250 mm |
| 289 | Adson self retaining retractor blunt 330mm |
| 290 | Miskimon cerebellar retractor |
| 291 | Harvey jackson laminectomy retractor hined arms blade 1.5\" wide ;1.75\" deep ;Length 290mm |
| 292 | Kilner Needle Holder Box Joint 0.4mm ;5\" length TC jaws Gold plated |
| 293 | Auto clavables.steel drum\"s 15\"x12\" |
| 294 | Auto clavables.s tray with LID for microsurgical ins. with Silicone matt. |
| 295 | Auto clavables.steel tray with LID 12\"x18\" |
| 296 | Schlesinger IVD Rongeur,Size :- 152 mm shaft :,cup 2x10mm |
| 297 | Schlesinger IVD Rongeur, Size :- 152 mm shaft:, cup 3x10mm |
| 298 | Schlesinger IVD Rongeur, Size :- 152 mm shaft :,cup 4x10mm |
| 299 | Hardy kerrision punch , Size :- 1mm, 40degree up’’ Length |
| 300 | Cervical kerrision thin plate , Size :- 40º degree up, 2mm, 7’’ lengthGold screw |
| 301 | Lumbar kerrision Rongeur , Size :- 40º degree up, 3mm, 8’’ Length |
| 302 | Lumbar Kerrison RongerurHardy style Handle withBall spring 40º up 8’’ Length |
| 303 | StilleLeur Rongeur Curved Bite, 5mmLength 229mm |
| 304 | StilleLeur Rongeur curved Bite, 10 mm, Length 216 mm |
| 305 | Biomimetic Synthetic Absorbable Dural Substitute..1.It should have thickness between 0.1 to 0.5 mm2. It can be sutured and onlay on to the dural defect. |
| 306 | Cervical Self RetainingRetractor setLength-254 mmOpening- 144 mmWith Seven PairsRetractor Blade 25mm to 55 mm@ 5mm Interval |
| 307 | Vertebral body spreader with ratchet lock length – 127mm |
| 308 | Mayo Hegar needle holder , length – 7’’ TC Inserts |
| 309 | Adson dural needle holder fenestrated jaws , length -181mm |
| 310 | Arachnoid Knife 2mm / 3 mm / 4mm |
| 311 | Fogarty’s balloon catheter for endoscopic third ventriculostomy 4 Fr/ 5 Fr |
| 312 | Long artery forceps |
| 313 | Cheatle forceps |
| 314 | Tongue depressor |
| 315 | Catspaw retractor |
| 316 | Markham – meyerding hemilaminectomy retractor of various sizes |
| 317 | Mayo table |
| 318 | Craniotomy burr perforator for use with Hudson brace |
| 319 | Yasargil arachnoid knife |
| 320 | Subcutaneous ventriculo peritoneal shunt passer (adult) |
| 321 | Yasargil biopsy forcep |
| 322 | Toothed dissecting forceps |
| 323 | Wooden handle dissector |
| 324 | Titanium made NEURO SURGERY INSTRUMENTS SET |
| 325 | Micro-scissor of various sizes |
| 326 | Micro needle holder of various sizes |
| 327 | Tissue/ tumor grasping forceps of various tips and sizes |
| 328 | Microscopic probe |
| 329 | Microscopic scoop |
| 330 | Microscopic dissector |
| 331 | Microscopic curette |
| 332 | Microscopicrasparatory |
| 333 | Microscopic Tumor knife |
| 334 | Microscopic hooks |
| 335 | Modular suction cannula |
| 336 | Bipolar forceps |
| 337 | Instruments organization system trays |
| 338 | Microscopic Arachnoid knife |
| 339 | Electrical Drill (MANMAN) Craniotome & Perforator |
| 340 | Craniotome cutter blade |
| 341 | Craniotome hand piece |
| 342 | Craniotome cutter hand piece |
| 343 | Shaft for Craniotome |
| 344 | Reusable Perforator 10/12/14mmburr |
| 345 | Non Oxidizad Regenerated celluloseHaemostat used in Trauma and surgical procedure for Mild, Moderate to Severe bleeding, non- exothermic and have non-compression mechanism, can absorb up to 2000% - 2500% of its initial weight in fluid. Size 10x10cm (4x4 inch) |
| 346 | Non Oxidizad Regenerated celluloseHaemostat used in Trauma and surgical procedure for Mild, Moderate to Severe bleeding, non- exothermic and have non-compression mechanism, can absorb up to 2000% - 2500% of its initial weight in fluid. Size 5x7.5cm (2x3 inch) |
| 347 | Clauses For Electrical Drill with Craniotome & Perforator |
| 348 | 1. Craniotome and perforator along with shaft should be auto clavable.2. The perforator should have safety mechanism with automatic release system as soon as it touches the soft portion of dura.3. Cranitome cutter shoud have dura guard with thin foot plate4. Manufacture Company should submit warranty period for at least 02 years for complete system, include5. ng motor, perforator and Craniotome.6. Manufacture Company should make the accessories available to the dept on demand basis at a short notice of 48 hrs.7. Firms should quote the prices of accessories like craniotome blade and perforator separately.8. Company should be ISO/CE certified |
| 349 | Sterilit – Oil Spray |
