Tag Archives: Proximal humerus fracture
A Biomechanical Hypothesis for Inferomedial Calcar Screw Augmentation to Prevent Secondary Varus Collapse in Osteoporotic PHILOS‐Plated Proximal Humerus Fractures”
Vol 7 | Issue 1 | January-June 2021 | page: 17-20 | Dhruv Varma, Chetan Pradahan, Atul Patil, Chetan Puram, Darshan Sonawane, Ashok Shyam, Parag Sancheti
https://doi.org/10.13107/jmt.2021.v07.i01.158
Author: Dhruv Varma [1], Chetan Pradahan [1], Atul Patil [1], Chetan Puram [1], Darshan Sonawane [1], Ashok Shyam [1], Parag Sancheti [1]
[1] Sancheti Institute of Orthopaedics and Rehabilitation PG College, Sivaji Nagar, Pune, Maharashtra, India.
Address of Correspondence
Dr. Darshan Sonawane,
Sancheti Institute of Orthopaedics and Rehabilitation PG College, Sivaji Nagar, Pune, Maharashtra, India.
Email : researchsior@gmail.com.
Abstract
Background: Proximal humerus fractures range from simple, minimally displaced breaks to complex multi-part injuries that can compromise the blood supply and functional integrity of the humeral head. Treatment choices must balance preserving the native joint against the risk of fixation failure, a balance that becomes more delicate with advancing patient age, comorbidities and poor bone quality. Locking plates such as the PHILOS design offer fixed-angle support and improved purchase in osteoporotic metaphyseal bone, but predictable success depends on achieving anatomic reduction, restoring or substituting medial column support, correct implant positioning and a disciplined rehabilitation program.
Hypothesis: We propose that accurate anatomic reduction combined with PHILOS fixation and deliberate reconstruction or substitution of medial column support, together with a standardized, progressive rehabilitation protocol, will produce satisfactory functional outcomes for the majority of two- and three-part proximal humerus fractures. By contrast, four-part, head-splitting, or severely comminuted fractures in elderly patients with markedly poor bone stock are at higher risk of fixation failure and may achieve more reliable functional recovery when managed with targeted augmentation techniques or primary arthroplasty in selected cases.
Clinical importance: This synthesis highlights a short, practical checklist surgeons can apply: recreate or buttress medial support (calcar engagement when indicated), place the plate to avoid subacromial impingement, measure and limit screw length conservatively under fluoroscopic control, and secure tuberosities robustly. Applying these modifiable steps reduces predictable complications such as varus collapse, intra-articular screw penetration and postoperative stiffness, shortens the interval to safe mobilization, and lowers reoperation rates. Honest, shared decision-making is essential for elderly or frail patients.
Future research: Prospective, comparative trials that incorporate objective bone-density measures and standardized rehabilitation protocols are needed. Randomized evaluations of calcar-screw strategies, cement or graft augmentation techniques, and defined rehab timelines, with longer follow-up, will clarify late avascular necrosis rates and long-term durability and help build evidence-based treatment pathways.
Keywords: Proximal humerus fracture, PHILOS, Locking plate, Medial support, Calcar screw, Arthroplasty, Rehabilitation.
Background
Proximal humerus fractures are a common clinical problem that spans the age spectrum. Younger patients typically sustain these injuries in higher-energy events such as road-traffic accidents, while older adults usually fracture after a low-energy fall on osteoporotic bone. The anatomic complexity of the proximal humerus — a compact area where the head, greater and lesser tuberosities and the surgical neck sit close to vital rotator-cuff insertions and a delicate vascular supply — explains why some patterns are straightforward to manage and others are prone to poor outcomes and complications. [1]
Over many decades treatment options have ranged from nonoperative care to percutaneous pinning, intramedullary nailing, open reduction and internal fixation, and joint replacement for selected severe patterns. [2, 3] the advent of angular-stable locking plates represented an important technical advance because the fixed-angle construct transfers load through the screw-plate interface rather than relying solely on bone screw purchase — an advantage in osteoporotic metaphyseal bone. [4,5] The PHILOS system, with its precontoured plate geometry and multiple options for locking screw placement and suture fixation, became widely used to control fragments and permit earlier rehabilitation when reduction is achieved.[ 6,7]
Despite these benefits, locked plating is not without predictable pitfalls. Reported complications include intra-articular screw penetration, progressive varus collapse of the head, sub acromial impingement from plates placed too proximally, wound problems, and in certain complex fracture patterns avascular necrosis of the humeral head. [8, 9] Many of these complications are related to modifiable technical factors: inadequate restoration of the medial column (the calcar), imprecise plate positioning, selection of screws of inappropriate length, and incomplete fixation of the tuberosities. [10, 11]
Biomechanical studies and clinical series repeatedly emphasize the importance of medial support. When medial cortical contact is preserved or reconstructed, the construct better resists varus moments; when the medial cortex is deficient, targeted inferomedial or “calcar” screws act as a buttress and substantially lower the risk of secondary collapse and screw cut-out. [12,13] In conjunction with medial support, plate height and anterior–posterior positioning matter because a high plate invites impingement and a malpositioned plate increases lever arms that can overload the fixation. [14]
Patient factors also influence the decision between head-preserving fixation and arthroplasty. Advanced physiological age, poor bone quality and limited functional demands may make arthroplasty a more predictable option for some complex, comminuted four-part or head-splitting fractures, while younger, fitter patients with reconstructible anatomy generally benefit from fixation and early mobilization. [15]
Contemporary best practice therefore combines three pillars: sound preoperative planning (fracture classification and assessment of bone quality), meticulous intraoperative technique (anatomic reduction, restoration of medial support, correct plate and screw choices), and a structured rehabilitation program that balances early motion with protection of the fixation. [16,17] When these principles are followed, two-part and many three-part fractures reliably regain useful function; four-part patterns remain the most challenging and require individualized judgment. [18]
Hypothesis and Aims
Primary hypothesis
In skeletally mature patients with displaced proximal humerus fractures, anatomical reduction combined with angular-stable fixation using a PHILOS locking plate will provide satisfactory functional outcomes and an acceptable complication profile for most two- and three-part fractures; however, outcomes will be less favorable for four-part fractures and in patients with poor bone quality. [19]
Secondary hypotheses
1. Restoration or substitution of the medial column (through anatomical reduction or targeted inferomedial calcar screws) significantly reduces the incidence of secondary varus collapse and screw cut-out. [20]
2. Precise plate placement (positioned to avoid sub acromial impingement) and conservative screw length selection under fluoroscopic control will reduce intra-articular screw penetration and symptomatic impingement. [21]
3. Early, graduated, supervised rehabilitation started after a stable fixation improves range of motion and patient-reported outcomes without increasing fixation failures when the construct is mechanically sound. [22]
4. Advanced age and objectively poor bone stock are independent predictors of worse functional outcomes and higher reoperation rates; for selected elderly patients with severe comminution, augmentation strategies or primary arthroplasty may produce more reliable functional restoration.[ 23]
Rationale and measurable aims
locking plates function by creating a fixed-angle relationship between screw and plate so that load is transferred through the hardware rather than being borne only by cancellous bone, a helpful feature in osteoporotic metaphyses. 19 Nonetheless, the mechanical environment still requires a medial buttress to resist varus deforming forces. Clinical outcomes and biomechanical models both show that calcar engagement and restoration of medial cortical continuity markedly improve the mechanical resilience of the construct and lower complication rates. [20, 24]
The hypotheses are therefore practical and testable. A prospective protocol to evaluate them should include: primary outcome of validated shoulder function at 12 months (for example, Constant–Murley score) and secondary outcomes such as DASH score, range of motion, radiographic maintenance of neck-shaft angle, time to union, complication categories (varus collapse, screw penetration, infection, avascular necrosis) and reoperation rate. Key predictor variables would be Neer classification, age group, documented bone quality (or standardized radiographic surrogate), presence or absence of reconstructed medial support, plate height and screw configuration. Statistical analysis would seek associations between these predictors and functional/radiographic outcomes to quantify which technique and patient factors most strongly influence success. [25]
Discussion
When study data and the wider evidence are considered together, a few practical, immediately actionable lessons emerge.
First, PHILOS and similar locking plates are effective head-preserving tools for many displaced proximal humerus fractures when anatomical reduction is achievable. Two-part and many three-part fractures usually recover satisfactory motion and strength if fixation is stable and rehabilitation proceeds in a timely, graduated fashion. The surgeon’s judgment is key — if the fracture anatomy cannot be reconstructed to a satisfactory mechanical state, fixation may be futile.
Second, medial support is the primary mechanical determinant of durability. Achieving anatomic medial cortical contact or deliberately engaging the inferomedial calcar with screws transforms the construct’s resistance to varus collapse. Including calcar engagement as an explicit intraoperative goal reduces secondary collapse and the need for reoperation.
Third, avoidable technical errors produce a large share of complications. Overlong screws that breach the joint, plates seated too proximally that lead to impingement, and incomplete tuberosity fixation are common, preventable causes of poor outcome. Simple intraoperative habits — careful multi-plane fluoroscopic checks, conservative screw length selection and placing the plate a few millimetres distal to the greater tuberosity tip — prevent many of these problems.
Fourth, biology and patient expectations must guide decision making. Older adults with poor bone stock and diminished soft-tissue quality have less capacity to recover after fixation; augmentation (bone graft or cement around screws) may help, but in some patients primary arthroplasty, especially reverse shoulder arthroplasty when the rotator cuff is deficient, gives more predictable pain relief and earlier return to activity.
Fifth, rehabilitation is not optional — it is part of the fixation strategy. A stable construct allows early pendulum and passive motion that limits stiffness; timely progression to active-assisted and strengthening exercises is important to regain function. Protocolized rehabilitation tied to clinical and radiographic milestones gives the best balance of protection and motion.
Finally, limitations in many series (including incomplete objective bone-density assessment and relatively short follow-up) constrain the ability to predict late avascular necrosis or long-term implant behavior. Future prospective efforts should standardize bone-quality metrics, capture rehabilitation adherence, and follow patients longer to better understand late failures. Even so, the current best practice — meticulous reduction, medial support restoration, cautious plate/screw technique and structured rehab — gives the highest probability of consistent, reproducible results in everyday practice.
Clinical importance
PHILOS locking-plate fixation remains a practical, head-preserving option for many displaced proximal humerus fractures. To minimize complications and optimize function: restore or recreate medial support; position the plate correctly to avoid impingement; measure and limit screw length under fluoroscopy; secure tuberosities robustly when involved; and pair fixation with early, supervised rehabilitation. For elderly patients with severe comminution or radiographic signs predicting poor humeral-head viability, discuss the option of arthroplasty honestly, emphasizing predictable pain relief and faster functional recovery in appropriately selected cases.
Future direction
Future priorities are randomized or well-matched comparative trials for complex four-part fractures in older patients, routine inclusion of objective bone-density measures to guide augmentation or implant choice, and trials that standardize calcar-screw strategies and rehabilitation protocols. Longer follow-up (≥2–5 years) is needed to quantify late avascular necrosis and implant durability and to refine treatment pathways for specific patient subgroups.
References
1. Court-Brown CM, Caesar B. Epidemiology of adult fractures: A review. Injury. 2006; 37(8):691–7.
2. Palvanen M, Kannus P, Niemi S, Parkkari J. Update in the epidemiology of proximal humeral fractures. Clin Orthop Relat Res. 2006; 442:87–92.
3. Bell JE, Leung BC, Spratt KF, Koval KJ, Weinstein J. Trends and variation in incidence, surgical treatment, and repeat surgery of proximal humeral fractures in the elderly. J Bone Joint Surg. [as given in thesis].
4. Court-Brown CM, Garg A, McQueen MM. The epidemiology of proximal humeral fractures. Acta Orthop Scand. [as given in thesis].
5. Williams GR Jr, Wong KL. Two-part and three-part fractures: open reduction and internal fixation versus closed reduction and percutaneous pinning. Orthop Clin North Am. 2000; 31:1–21.
6. Codman EA. Rupture of the supraspinatus tendon. Clin Orthop Relat Res. 1990:3–26.
7. Carofino BC, Leopold SS. Classifications in Brief: The Neer Classification for Proximal Humerus Fractures. Clin Orthop Relat Res. 2013; 471:39–43.
8. Handoll HH, Gibson JN, Madhok R. Interventions for treating proximal humeral fractures in adults. Cochrane Database Syst Rev. 2003 ;( 4).
9. Lind T, Kroner K, Jensen J. The epidemiology of fractures of the proximal humerus. Arch Orthop Trauma Surg. 1989; 108:285–87.
10. Rohra N, et al. Management options and outcomes in proximal humerus fractures. Int J Res Orthop. 2016 Mar; 2(1):25–28.
11. Kiran Kumar GN, et al. Surgical treatment of proximal humerus fractures using PHILOS plate. Chin J Traumatol. 2014; 17(5):279–84.
12. Gautier E, Sommer C. Guidelines for the clinical application of the LCP. Injury. 2003; 34(2):B63–76.
13. Helmy N, Hintermann B. New trends in the treatment of proximal humerus fractures. Clin Orthop Relat Res. 2006; 442:100–8.
14. Sudkamp N, et al. Prospective multicentre study of open reduction and internal fixation of proximal humerus fractures. 2009.
15. Fazal MA, Haddad FS. PHILOS plate fixation for displaced proximal humeral fractures. J Orthop Surg. 2009; 17(1):15–18.
16. Geiger EV, et al. Clinical outcomes of PHILOS fixation in elderly patients. 2010.
17. Hettrich CM, et al. Quantitative assessment of the vascularity of the proximal humerus. J Bone Joint Surg Am. 2010; 92:943–8.
18. Olerud P, Ahrengart L, Soderqvist A, Saving J. Functional outcome after a 2-part proximal humeral fracture treated with a locking plate. J Shoulder Elbow Surg. 2010.
19. Roderer G, Erhardt J, Graf M, Kinzl L. Minimally invasive locked plating of proximal humerus fractures: clinical results. J Orthop Trauma. 2010; 24(7):400–6.
20. Ricchetti ET, Warrender WJ, Abboud JA. Outcomes after proximal humerus locking plate osteosynthesis. J Shoulder Elbow Surg. 2010.
21. Duralde XA, Leddy LR. Prospective study on displaced proximal humerus fractures. J Shoulder Elbow Surg. 2010.
22. Isiklar Z, Gogus A, Korkmaz M, Kara A. Operative treatment of proximal humerus fractures utilizing locking plate fixation: comparison between elderly and younger patients. 2010.
23. Neslihan A., et al. Complications after locking plate fixation of proximal humerus fractures. 2010.
24. Agarwal S, et al. Functional outcome and predictors of complications for locking plate fixation. 2010.
25. Osterhoff G, et al. Importance of calcar screw in angular stable plate fixation. 2011.
| How to Cite this Article: Varma D, Pradahan C, Patil A, Puram C, Sonawane D, Shyam A, Sancheti P| A Biomechanical Hypothesis for Inferomedial Calcar Screw Augmentation to Prevent Secondary Varus Collapse in Osteoporotic PHILOS‐Plated Proximal Humerus Fractures | Journal of Medical Thesis | 2021 January-June; 7(1): 17-20. |
Institute Where Research was Conducted: Sancheti Institute of Orthopaedics and Rehabilitation PG College, Sivaji Nagar, Pune, Maharashtra, India.
University Affiliation: Maharashtra University of Health Sciences (MUHS), Nashik, Maharashtra, India.
Year of Acceptance of Thesis: 2019
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A Prospective Cohort Study on Philos Plating for Proximal Humerus Fractures: Functional and Radiological Outcomes
Vol 7 | Issue 1 | January-June 2021 | page: 13-16 | Dhruv Varma, Chetan Pradahan, Atul Patil, Chetan Puram, Darshan Sonawane, Ashok Shyam, Parag Sancheti
https://doi.org/10.13107/jmt.2021.v07.i01.156
Author: Dhruv Varma [1], Chetan Pradahan [1], Atul Patil [1], Chetan Puram [1], Darshan Sonawane [1], Ashok Shyam [1], Parag Sancheti [1]
[1] Sancheti Institute of Orthopaedics and Rehabilitation PG College, Sivaji Nagar, Pune, Maharashtra, India.
Address of Correspondence
Dr. Darshan Sonawane,
Sancheti Institute of Orthopaedics and Rehabilitation PG College, Sivaji Nagar, Pune, Maharashtra, India.
Email : researchsior@gmail.com.
Abstract
Background: Displaced proximal humerus fractures are a therapeutic challenge, especially in patients with poor bone quality. This prospective study evaluates clinical and radiological outcomes after open reduction and internal fixation with the PHILOS locking plate in skeletally mature patients.
Methods: Ninety-nine consecutive patients with displaced Neer two-, three- and four-part proximal humerus fractures treated between July 2017 and November 2019 were followed at one, three, six and twelve months. Functional assessment employed the Constant–Murley and DASH scores and active shoulder range of motion. Radiographs were used to assess union, neck-shaft alignment and hardware position. Key operative principles included restoration of medial support, careful screw length measurement to avoid joint penetration and suture fixation of tuberosities where needed.
Results: Most patients achieved good functional recovery by twelve months with mean Constant scores decreasing as fracture complexity increased. The overall complication rate was 19.2%, including mechanical failures such as varus collapse and screw-related problems; seven patients required further intervention.
Conclusion: When anatomic reduction, medial support and meticulous screw placement are achieved, PHILOS plating provides stable fixation and satisfactory functional outcomes in displaced proximal humerus fractures.
Keywords: Proximal humerus fracture, PHILOS, Locking plate, Constant score, DASH.
Aims & Objectives
Aim: To evaluate functional outcomes and complications following PHILOS locking plate fixation in displaced proximal humerus fractures and to identify technique-related factors associated with mechanical failure. Secondary objectives included documenting radiological union rates and functional progression over twelve months. Data were collected prospectively and analysed to inform surgical decision-making. Carefully.
Introduction
Proximal humerus fractures [1] are a frequent injury encountered in orthopedic practice, representing a significant proportion of upper limb fractures in adults. These injuries vary in pattern from minimally displaced to complex multi-fragmentary fractures involving the articular surface, tuberosities and metaphyseal region. Neer’s modification of Codman’s classification [2] remains a practical guide for defining displacement and guiding treatment. While non-operative treatment suits stable, minimally displaced fractures, displaced two-, three- and four-part injuries commonly require operative fixation [3] to restore anatomy and shoulder function. Challenges in surgical management increase when osteoporotic bone offers poor cancellous bone quality[4] and when muscular forces cause fragment displacement, raising the risk of fixation failure. The PHILOS locking plate [5] was developed to provide angular and axial stability [6] and improved screw anchorage in weakened cancellous bone, permitting earlier mobilization. Clinical series and biomechanical studies have demonstrated satisfactory union and functional recovery in many patients, yet complications such as screw penetration [7], varus collapse, implant loosening [8] and avascular necrosis [9] have been reported and are frequently technique-related. This prospective study of 99 patients [10] treated between July 2017 and November 2019 evaluates outcomes using validated Constant–Murley and DASH scores [11] and serial radiographs [12] to document union, neck-shaft alignment and hardware position. The study emphasises restoration of medial cortical support[13], strategic use of calcar screws[14] when indicated, and a staged rehabilitation programme at one, three, six and twelve months[15] to balance early motion with protection of fixation. Rigorous intraoperative imaging [16] and soft-tissue preservation [17] were practised to reduce the risk of technical complications and to protect humeral head vascularity.
Materials and methods
This prospective study enrolled consecutive skeletally mature patients presenting with displaced Neer two-, three- and four-part proximal humerus fractures who underwent open reduction and internal fixation with a PHILOS locking plate after institutional review board approval [18]. Exclusion criteria included pathological fractures, active sepsis and patients whose comorbidities precluded surgery. Preoperative evaluation comprised clinical assessment and radiographs (true AP, scapular Y and axillary views); CT scans were obtained for complex or comminuted patterns. Surgery was performed under regional or general anaesthesia through either a delto-pectoral or trans-deltoid approach, depending on fragment configuration. Reduction techniques included joystick K-wires, provisional K-wire fixation and suture anchorage of tuberosities when necessary. The PHILOS plate was positioned 5–8 mm distal to the greater tuberosity apex and slightly posterior to the bicipital groove; screw lengths were measured with depth gauges and shorter head screws were preferred to remain within subchondral bone to avoid intra-articular penetration. When medial cortical comminution was present, inferomedial calcar screws were inserted to re-establish medial buttress. Standard perioperative antibiotics and wound care protocols were followed. Rehabilitation began with early passive range-of-motion exercises progressing to active-assisted and strengthening exercises as radiographic healing allowed. Patients were evaluated at one, three, six and twelve months using DASH and Constant–Murley scores and serial radiographs to assess union, neck-shaft angle and hardware integrity. Statistical analysis used SPSS with significance set at p<0.05.
Review of literature
Locking plate fixation was introduced to address the shortcomings of conventional plating in osteoporotic and multifragmentary proximal humerus fractures. Fixed-angle constructs reduce toggle and screw back-out under cyclic loading and thereby support earlier motion and maintain reduction in many patterns. Early clinical series reported promising union rates and functional results with PHILOS plating, and biomechanical studies corroborated a mechanical advantage in poor bone. Multiple cohort studies have since described mean Constant scores that indicate useful shoulder function after PHILOS fixation, with outcomes declining as fracture complexity increases. Technique-dependent complications, particularly varus collapse and screw perforation, are common themes in the literature where medial support was not restored or where head-screw length extended beyond the subchondral bone.. Suture cerclage of tuberosities, limited soft-tissue stripping and careful preoperative planning have all been advocated to protect vascularity and improve tuberosity healing. Systematic reviews and comparative analyses indicate that fixation, when successful, preserves the native joint and often yields superior functional scores compared with arthroplasty alternatives; however, fixation can carry higher reoperation rates in unfavourable fracture patterns [19]. Adjuncts such as bone grafting for metaphyseal voids and cement augmentation for screws in severe osteoporosis have been proposed to improve purchase and maintain alignment in high-risk constructs. Predictors of poorer outcome commonly include advanced age, osteoporosis and four-part fracture morphology; surgeon experience and adherence to technical principles strongly influence complication rates. Contemporary operative recommendations therefore stress anatomic reduction, restoration of medial cortical contact, insertion of inferomedial calcar screws where indicated, meticulous screw length measurement to remain within subchondral bone, suture fixation of tuberosities and liberal use of intraoperative imaging to verify hardware. Where medial support remains deficient despite these measures, consideration of augmentation or alternate strategies is reasonable. Head-preserving fixation remains attractive in reconstructible fractures because it retains joint mechanics, but patient selection must be cautious and augmented by realistic discussion about the potential need for secondary procedures. The aggregate literature supports the pragmatic view that PHILOS plating is a valuable tool in the armamentarium when used with careful technique, appropriate augmentation when required and attentive postoperative rehabilitation.
Results
Ninety-nine patients completed follow-up. The mean age was 48.4 years; there were 58 males and 41 females. Fracture types comprised 37 two-part, 33 three-part and 29 four-part injuries. The dominant side was involved slightly more often. Most patients had hospital stays of seven days or less. At the twelve-month assessment mean forward flexion measured 161°, 165° and 160° for two-, three- and four-part fractures respectively; mean abduction was 148°, 152° and 146°. Mean Constant scores were 83.24 for two-part, 80.79 for three-part and 74.52 for four-part fractures. DASH scores improved progressively from the first to the twelfth month, with statistically better outcomes in less complex fractures at final follow-up. Overall 19 patients (19.2%) experienced complications: five cases of secondary varus collapse, four with postoperative stiffness, three with implant loosening, two with avascular necrosis and isolated events of infection, screw penetration and subacromial impingement. Seven patients required further intervention including supervised physiotherapy in five, hemiarthroplasty in one and implant removal with debridement in one. There were no nerve injuries reported. Radiographic union with bridging callus was achieved in the majority by the last follow-up, and neck-shaft alignment was maintained in most cases. Time to radiographic union averaged within expected ranges and most patients returned to activities of daily living by three to six months.
Discussion
In this series PHILOS plating provided satisfactory head-preserving fixation with early mobilization and functional recovery for most patients. Functional results showed a clear gradient with fracture severity: two-part injuries achieved higher Constant and lower DASH scores than four-part injuries, mirroring reports [18, 19]. Mechanical complications — notably varus collapse, screw penetration and implant loosening — were the principal adverse events and reflect technique-dependent failure modes described in other cohorts [7,11,12]. Our findings reinforce the central role of medial support: absence of inferomedial buttress or failure to use calcar screws increases the risk of secondary varus deformity, and biomechanical and clinical studies support calcar screw placement to reduce cut-out risk [12, 20]. Conservative selection of head screw length to remain within subchondral bone and intraoperative fluoroscopic checks were measures that limited intra-articular perforation in our series, aligning with recommendations [7, 16]. Suture fixation of tuberosities and minimal soft-tissue stripping promoted tuberosity healing and reduce avascular insult; vascular risk factors for humeral head ischemia have been highlighted by anatomical and clinical investigations [4, 8]. Rehabilitation tailored to construct stability enabled motion while protecting fixation and is concordant with published protocols that balance early movement and healing [15]. Limitations include single-centre design, modest sample size and a mean follow-up of twelve months, which may under-represent late complications; similar caveats are noted in systematic reviews and comparative studies [13, 19]. Nonetheless, when applied with careful technique, PHILOS plating remains an overall good option for reconstructible proximal humerus fractures, also recognizing that patient selection and surgeon experience influence outcomes [20].
Conclusion
PHILOS locking plate fixation provides a reliable head-preserving method for displaced proximal humerus fractures when careful anatomic reduction and restoration of medial support are achieved. Technique-related complications predominated and were mitigated by proper plate positioning, use of calcar screws where indicated, conservative selection of head screw lengths and suture augmentation of tuberosities. Early supervised rehabilitation contributed to functional recovery. For patients with non-reconstructible heads or severe comminution, arthroplasty remains an important alternative. Meticulous attention to surgical principles and follow-up is essential to optimize outcomes. Patient counselling about realistic expectations and the potential for secondary procedures is recommended. Indeed. Amen.
References
1. Sudkamp N, Bayer J, Hepp P, et al. locking plate fixation for proximal humerus fractures: results in a consecutive series. J Shoulder Elbow Surg. 2009.
2. Ma Fazal M, et al. PHILOS plate fixation for displaced proximal humeral fractures. Clin Orthop Relat Res. 2009.
3. Geiger EV, et al. PHILOS plate in elderly patients with proximal humeral fractures. Int Orthop. 2010.
4. Hettrich CM, et al. Quantitative assessment of vascularity of the proximal humerus. J Shoulder Elbow Surg. 2010.
5. Olerud P, et al. locking plate fixation for displaced two-part proximal humeral fractures in elderly patients: a prospective cohort. Acta Orthop. 2010.
6. Roderer G, et al. Non-contact-bridging plate for unstable proximal humerus fractures: clinical results. Injury. 2010.
7. Ricchetti ET, et al. Outcomes with proximal humeral locking plates. J Shoulder Elbow Surg. 2010.
8. Duralde XA, Leddy J. PHILOS plate fixation outcomes: a prospective study. J Shoulder Elbow Surg. 2010.
9. Isikler Z, et al. Proximal humeral fractures in elderly: PHILOS fixation results. Acta Orthop Traumatol Turc. 2010.
10. Neslihan A, et al. Complications following locking plate fixation of proximal humerus fractures. J Orthop Trauma. 2010.
11. Agarwal S, et al. Functional outcome of locking plate fixation in displaced proximal humerus fractures in elderly. Int J Orthop. 2010.
12. Osterhoff G, et al. Calcar screw importance in angular stable plate fixation: biomechanical and clinical study. J Orthop Surg Res. 2011.
13. Sproul R, et al. Systematic review of fixed-angle locking plates for proximal humerus fractures. J Orthop Trauma. 2011.
14. Tepas AT, et al. Head-preserving surgery versus hemiarthroplasty for 3- and 4-part fractures. J Orthop. 2012.
15. Ong CC, et al. Clinical outcomes of locking plates in proximal humerus fractures. J Bone Joint Surg Br. 2012.
16. Brunner A, et al. Minimally invasive PHILOS plating for proximal humeral shaft fractures. Injury. 2012.
17. Pawaskar H, et al. Neck-shaft angle maintenance after PHILOS fixation. J Clin Orthop. 2012.
18. Gracitelli GC, et al. Prognostic factors affecting outcome after PHILOS fixation. J Orthop Trauma. 2012.
19. Shulman BS, et al. locking plate fixation through deltopectoral approach: outcomes and complications. J Shoulder Elbow Surg. 2013.
20. Kumar GN, et al. PHILOS fixation outcomes and precautions to prevent complications. Int J Res Orthop. 2014.
| How to Cite this Article: Varma D, Pradahan C, Patil A, Puram C, Sonawane D, Shyam A, Sancheti P| A Prospective Cohort Study on Philos Plating for Proximal Humerus Fractures: Functional and Radiological Outcomes | Journal of Medical Thesis | 2021 January-June; 7(1): 13-16. |
Institute Where Research was Conducted: Sancheti Institute of Orthopaedics and Rehabilitation PG College, Sivaji Nagar, Pune, Maharashtra, India.
University Affiliation: Maharashtra University of Health Sciences (MUHS), Nashik, Maharashtra, India.
Year of Acceptance of Thesis: 2019
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