Problems with long term follow-up in orthopaedic surgery

While surgeons and patients want to know how the surgery will work out for them in the long run, as pointed out in The challenge of long-term follow-up in orthopaedics: diminishing returns, long-term followup studies are both important and difficult.

The longer the period of followup:

(1) the percentage of the initial patient cohort that is lost to follow-up increases progressively with time after surgery (perhaps because the patients were dissatisfied and transferred their care to another surgeon, or because they had a revision that truncated the follow-up of their initial surgery, or because they could not afford to return for follow-up, or because they got tired of returning questionnaires, or because they became ill or expired).

(2) the procedures performed a while back become progressively less representative of what is being performed currently (the patient selection, surgical techniques, implants, and surgeons evolve progressively over time)

(3) the measures of patient comfort and function are inconsistent. over time.

(4) patients having complications and revisions have a tendency to get lost or omitted for one reason or another.

(5) the number of patients included in long-term followup studies is a very small (non-representative) sample of the total number of the patients originally having the procedure. 

A recent study, Long-term clinical and radiographic outcomes of pegged vs. keeled glenoid components in total shoulder arthroplasty: A matched cohort study, provides a good illustrative example of these issues. It aimed to compare outcomes in over 600 patients having total shoulder arthroplasty by an individual surgeon using either keeled or pegged cemented glenoid components between the years 2001 and 2015. The rational for using one or the other type of component was not explained: "The choice of glenoid implant type was made intraoperatively."

A matching algorithm was employed to create a 1:2 cohort of patients receiving keeled (N=12) and pegged (N=24) cemented glenoid designs, respectively at an average of 9 years (range 5.0-17) years after surgery.

.

There were no significant differences in postoperative ranges of motion or in Simple Shoulder Test, ASES, VAS, or Lazarus scores.  

Referring to #1 and 5 on the list above, the percentage of shoulders included in the analysis was very small as seen on this chart

Referring to #2 on the list, the components used in this series are no longer in frequent use, so it is not obvious how these data inform current practice

It seems axiomatic that the longer the initial patient cohort is followed, the smaller the percentage of patients available for study (e.g. in this study, it is likely (A) that the percentage of patients with followup data at 2 years would be substantially greater than the 6% that were available at 9 years or 17 years and (B) the implants and techniques in use 2 years prior to the study are more likely to remain in current use in comparison to those used 9 or more years prior. 

Diminishing returns. Which period of followup is most relevant?

How important is it today to compare the miles per gallon or service record of these two cars?

Today on my Zwift ride 

I heard this riddle: "What did the triangle say to the circle?" Answer: "you're pointless"! 

I'm not saying that long-term studies are pointless, but it is essential to anticipate the challenges and limitations including those laid out here. These studies are time-consuming and expensive, so we need to be sure that we gain knowledge that is clinically useful today. 

We want to avoid telling a student, resident or fellow to "look up my cases of X surgery and see what you find". Instead let's decide in advance what question we trying to answer and how many patients (N and %) and how long a period of followup do we need to answer the question? Sample size and power calculations seem critical.

Speaking of Long

Long-billed Curlew

Malheur 

May 2025

You can support cutting edge shoulder research that is leading to better care for patients with shoulder problems, click on this link

Follow on twitter/X: https://x.com/RickMatsen
Follow on facebook: https://www.facebook.com/shoulder.arthritis
Follow on LinkedIn: https://www.linkedin.com/in/rick-matsen-88b1a8133/

Here are some videos that are of shoulder interest
Shoulder arthritis - what you need to know (see this link).
How to x-ray the shoulder (see this link).
The ream and run procedure (see this link).
The total shoulder arthroplasty (see this link).
The cuff tear arthropathy arthroplasty (see this link).
The reverse total shoulder arthroplasty (see this link).
The smooth and move procedure for irreparable rotator cuff tears (see this link)
Shoulder rehabilitation exercises (see this link).

The challenge of long-term followup in orthopaedics: diminishing returns.

Patients considering orthopaedic surgery want their surgeon to predict the long-term outcomes for the procedure they are being offered: how long will it last? what are the chances of complications? how likely is it that a revision will be necessary? As pointed out in Objective ignorance - a problem in predicting outcomes in climbing and in orthopaedic surgery, average data from long-term followup studies of similar procedures performed in the past can be presented to the patient, but these averages do not predict the outcome for that individual.

There is another problem with using long-term followup studies in an attempt to predict future patient outcomes: this can be referred to as "diminishing returns". 

By this I mean that the longer the period of followup:

(1) the percentage of the initial patient cohort that is lost to followup increases progressively (perhaps because the patients were dissatisfied and transferred their care to another surgeon, or because they had a revision that truncated the followup of their initial surgery, or because they could not afford to return for followup or because they got tired of returning questionnaires or because they became ill or expired).

(2) the procedures performed a while back become progressively less representative of what is being performed currently (the patient selection, surgical techniques and implants, and surgeons evolve progressively over the time interval)

(3) the measures of patient comfort and function are inconsistent.

(4) patients having complications and revisions have a tendency to get lost or omitted for one reason or another.

(5) the number of patients included in long term followup studies is a very small (non-representative) sample of the total number of the patients currently having the procedure 

To see these factors in action, let's look at a recent article, Long-Term Outcomes Following Reverse Total Shoulder Arthroplasty A Systematic Review with a Minimum Follow-Up of 10 Years. 

The means of followup were inconsistent: Four studies conducted all follow-ups in a clinical setting, while 3 used either outpatient visits (20 to 41%) or phone/mail interviews. The absolute Constant score (CS) was used 5 studies. The relative CS was used in 3 studies. The Subjective Shoulder Value was used in 2 studies. The American Shoulder and Elbow Surgeons Score was used in 1 study. The Single Assessment Numeric Evaluation was used in 1 study. 

The weighted mean reported revision-free implant survivorship reported in 5 studies was 88% at 10 years; the complication rate was 36% with need for further revision in 23% of patients. However, because almost two thirds (63%) of the patients were lost to follow-up, we must suspect that the 37% of patients with followup were not representative of the total group.

Note that this study reviewed 469 rTSA procedures in 460 patients. Compare that number to the data in The incidence of shoulder arthroplasty: rise and future projections compared with hip and knee arthroplasty which found that 63,845 rTSAs were performed in 2017 with projected volume increases by the linear and Poisson models of 87.9% and 353.0%, to an estimated 119,994 and 289,193 procedures in 2025. Thus the total number of rTSAs in the entire Systematic Review was less than 0.25% of the estimated current annual volume of rTSAs - we must ask whether this is a representative sample. 

The authors concluded that "rTSA appears to provide substantial long-term improvements in shoulder function, clinical outcomes, and pain relief, albeit with significant complication and revision rates. However, caution is warranted when interpreting the data due to high lost-to-follow-up rates and limited data quality in the contemporary literature".

In a salute to all mothers on Mothers' Day (May 11), here is my photo of a mother hummingbird feeding her chicks.

You can support cutting edge shoulder research that is leading to better care for patients with shoulder problems, click on this link

Follow on twitter/X: https://x.com/RickMatsen
Follow on facebook: https://www.facebook.com/shoulder.arthritis
Follow on LinkedIn: https://www.linkedin.com/in/rick-matsen-88b1a8133/

Here are some videos that are of shoulder interest
Shoulder arthritis - what you need to know (see this link).
How to x-ray the shoulder (see this link).
The ream and run procedure (see this link).
The total shoulder arthroplasty (see this link).
The cuff tear arthropathy arthroplasty (see this link).
The reverse total shoulder arthroplasty (see this link).
The smooth and move procedure for irreparable rotator cuff tears (see this link)
Shoulder rehabilitation exercises (see this link).

What can we learn from 10+ year followup of reverse total shoulder arthroplasty?

 Long term outcomes in shoulder surgery are a challenge for some key reasons:

(1) the longer the minimum followup duration for the study, the greater the percentage of patients who will be lost to followup (because they have moved, no longer wish to provide followup, are grappling with other illnesses, are getting care elsewhere, or have passed away). So over time the final followup cohort becomes progressively less representative of the initial group of patients having the procedure (this is known as attrition bias). 

(2) long term radiographic followup is even harder to get in high percentage because of the logistics in obtaining preoperative and followup images that are comparable.

(3) shoulder surgery has changed a lot over the past decade: improved patient selection, better techniques, newer implants, better educated surgeons, and more refined rehabilitation protocols. Many surgeons no longer apply the implants or techniques that they used a decade ago. Thus how indicative are the results from ten years ago of how today's patients will be doing a decade from now?

That having been said, let's look at some 10+ year followup studies on RSA.

In what appears to be the largest American of Grammont design RSA at a minimum 10-year follow-up, Patient satisfaction and clinical outcomes of reverse shoulder arthroplasty: a minimum of 10 years' follow-up, the authors reviewed 471 patients having primary and revision RSA with the Aequalis (Grammont style) implant by an individual high volume surgeon. 93 (out of 471) patients had a minimum of 10 years' follow-up.

There was no difference in the mean SANE score or VAS pain score for patients having midterm (2-5 yr) and those having long-term follow-up (>10 yr).  

52 patients were very satisfied, 24 satisfied, 13 dissatisfied, and 4 very dissatisfied.  Kaplan-Meier prosthesis survival rate for all 471 RSA patients was 88% at 5 years and 81% at 10 years (revision defined as removal or replacement of metal components).

There were 64 complications in 60 patients; 48 patients had repeat surgery. The figure below is particularly informative regarding the type and timing of complications, noting the diagnoses of component loosening, PJI, acromial stress fractures, and instability continue to be made more than five years after surgery.

In Functional and radiographic outcomes of reverse shoulder arthroplasty with a minimum follow-up of 10 years. the senior author performed 119 Delta Xtend reverse total shoulders between 2005 and 2012.  Surgical technique included an inferior overhang of the glenosphere and leaving the subscapularis unrepared.

35 were deceased before reaching the 10-year follow-up and 23 could not be reached. 63 (out of 119) RSAs were included. 

10 complications were identified, of which seven required a revision at a median of 3 years. There were no cases with acromial fractures. 4 shoulders were revised for instability, one for loosening, one for infection, and one for periprosthetic fracture.

At final follow-up, the median anterior elevation was 135°; the median level reached with internal rotation was L5. The median Constant score was 68. 

Radiographs could be obtained in 25 patients. Among these, scapular notching occurred in 10 patients. Ossification occurred in 10 patients, and stress shielding in 2 patients. Radiolucencies were observed around the humeral component in 24 patients and around the glenoid component in 13 patients. 

Here's an example of a periprosthetic fracture

ossification

and loosening

The authors of Clinical outcomes are unchanged after a mean of 12 years after reverse shoulder arthroplasty: a long-term re-evaluation previously reported their outcomes having Delta III (Grammont style) reverse total shoulder arthroplasty between 2003 and 2008. 109 patients fulfilled their inclusion criteria and had a minimum of 5 year followup. Of these, 5 refused to participate in the study, 15 patients were lost to follow-up, and 9 patients died of unrelated causes leaving 80 patients for study. They then attempted to re-evaluate the patients at a minimum of 10 years after surgery: 27 (out of 109) were available for follow-up at 10+ years. 9  refused to participate; 12 patients were lost to follow-up; 14 patients died from causes unrelated to the prosthetic implant.  Neither the mean range of motion or the Constant score were different for the 27 at 10 years and the 80 at 5 years. No loosening of implants was noted, and the rate of scapular notching was 66%, mostly grade 1 or 2. 

Primary reverse shoulder arthroplasty: how did medialized and glenoid-based lateralized style prostheses compare at 10 years? compared 10 year outcomes for 56 Grammont style medialized prosthesis and 44 glenoid lateralized prosthesis

41 (out of 100) patients had an average of 10.2 years' follow-up showed clinical improvements without significant differences between the two groups. 

There were 16 complications; reoperation was required in 6 shoulders.  Notching rates were significantly higher in the medialized group (77% in M group vs. 47% in lateralized group). The reasons for reoperation were dislocation (2), polyethylene disassociation (1), glenosphere disassociation (1), infection (1), and acromial stress fracture (1). Other complications included intraoperative or post- operative periprosthetic fractures (6), acromial stress fractures (2), brachial plexopathy (1), and a distal clavicle insufficiency fracture.

Longitudinal observational study of reverse total shoulder arthroplasty for irreparable rotator cuff dysfunction: results after 15 years reviewed 22 (of 52) shoulder arthroplasties clinically and radiographically in intervals of 2 to 5 years and with a final follow-up examination at no less than 15 years after implantation of a Delta III prosthesis. Constant and pain scores as well as active motion were significantly improved, with some loss of active abduction over time. 

One or more complications were recorded in 13 patients (59%): mechanical block (1), scapula fracture (3), humeral fracture (1), dislocation (3), glenoid component loosening (2), humeral component loosening (2), polyethylene wear (1), infection (6). 12 required reoperation, 6 RSAs failed.

Long-Term Outcomes of Reverse Total Shoulder Arthroplasty: A Follow-up of a Previous Study evaluated RSA (Delta III and Aequalis) outcomes after a minimum of 10 years

 Their original report included the outcomes for 186 patients (191 RSAs) who had been followed for a mean of 40 months. In the present study, in which the mean duration of follow-up was 150 months, follow-up clinical evaluations were available for 84 patients (87 (out of 191) prostheses) and radiographic assessments were available for 64 patients (67 prostheses). 

Seventy-seven patients (79 prostheses) had died before the 10-year follow-up, and 17 patients (17 prostheses) had been lost to follow-up. 

Constant scores decreased significantly compared with the scores at the medium-term follow-up evaluation (at a minimum of 2 years). Forty-nine shoulders (73%) exhibited scapular notching. Forty-seven complications (29%) were recorded, with 10 cases (10%) occurring after 2 years. Sixteen (12%) of the original patients underwent revision surgery. The 10-year overall prosthetic survival rate using revision as the end point was 93%.

Comment:  These long-term followup studies are important. They document that clinically significant improvement in shoulder comfort and function can be sustained a decade after reverse total shoulder. 

The authors of these studies endeavored to capture 10+ year outcomes for the highest possible percentage followup for their reverse total shoulders; yet data on only 25% to 50% of the cases were attainable. How representative is this sample of the overall results: are patients with followup likely to have better or worse outcomes than those lost to followup?  Out of a cohort of patients having RSA, which patients would be most likely to make themselves available for 10 year clinical and radiographic followup?

The implants available for RSA a decade ago are no longer commonly used. Techniques have changed as has preoperative planning. How well do these 10+ outcomes from surgeries done a decade ago  predict the 10+ year outcomes of the RSAs being done today? Will the complications be less frequent?

Many of the patients having 10+ follow up after RSA were older and had their procedure performed for the original indication: rotator cuff tear arthropathy. Now RSAs are being increasingly performed for younger patients and for those with other diagnoses, including osteoarthritis with an intact cuff - a diagnosis conventionally treated with an anatomic arthroplasty (aTSA). In determining the comparative value of RSA to aTSA, clinical investigators will need to stratify patients by diagnosis as well as age and sex.

These articles document that complications continued to accrue well after first two to five years post reverse arthroplasty. The complications include dislocation, glenoid loosening, humeral loosening, glenoid fracture, humeral fracture, inadequate seating, polyethylene wear, acromial stress fractures, infection, nerve injuries, and scapular notching.  Thus long term studies are important in pointing out that patients remain at risk for complications a decade after surgery. 

Authors have presented "survival rates" as a quality outcome metric. "Survival" is commonly defined as retention of the implant. With the RSA, implants may be retained even if there is a debilitating complication, such as dislocation, displaced acromial stress fracture, or neurological injury. Implant retention may not indicate clinical success.

The question about whether the comfort, function and radiographic appearance change over time cannot be addressed by comparing, for example, the mean Constant scores on the 50 patients that were available for followup at 2-5 years with the mean Constant scores for the 25 patients that were available for followup at 10 years. In this example it may be better to take the 25 patients with 10 year data and look at the data for each of these patients at 1, 2 and 5 years after surgery.

A last point is that because of the importance of including the maximum percentage of the original group of patients having RSA in the final followup, we need to make it as easy as possible for the patient to continue to participate in the clinical followup program. Thus the program needs to include (1) explaining the importance of followup to all patients having the procedure and consenting them prospectively for long term followup, (2) using an outcome metric that is short and equally valid whether it is completed in the surgeon's office, electronically or by postal mail (i.e. one that doesn't require travel for a physical examination, but rather one that is based on the patient's self-assessed comfort and function), (3) obtaining a preoperative baseline assessment, and (4) organizing a system for reminding patients to submit their assessments of their shoulder at the desired intervals after surgery.  Our preference for the Simple Shoulder Test lies in the facts that it meets the above criteria and provides data on individual shoulder functions of importance to the patient, rather a single number composite score based on weighting of different elements that may be of different importance to different patients.

You can support cutting edge shoulder research and education that are leading to better care for patients with shoulder problems, click on this link.

Follow on twitter: https://twitter.com/RickMatsen or https://twitter.com/shoulderarth
Follow on facebook: click on this link
Follow on facebook: https://www.facebook.com/frederick.matsen
Follow on LinkedIn: https://www.linkedin.com/in/rick-matsen-88b1a8133/

Here are some videos that are of shoulder interest
Shoulder arthritis - what you need to know (see this link).
How to x-ray the shoulder (see this link).
The ream and run procedure (see this link).
The total shoulder arthroplasty (see this link).
The cuff tear arthropathy arthroplasty (see this link).
The reverse total shoulder arthroplasty (see this link).
The smooth and move procedure for irreparable rotator cuff tears (see this link).
Shoulder rehabilitation exercises (see this link).

Primary glenohumeral arthritis: treatment with the ream and run in comparison to total shoulder arthroplasty - 10 year followup

Glenohumeral arthritis in shoulders with an intact rotator cuff is the most common indication for shoulder arthroplasty. 

The safety, effectiveness and durability of anatomic arthroplasty - the ream and run (RnR) or the anatomic total shoulder (TSA) - is widely recognized. 

The authors of Minimum 10-year Follow-up of Anatomic Total Shoulder Arthroplasty and Ream-and-Run Arthroplasty for Primary Glenohumeral Osteoarthritis studied the patients and the minimum 10-year outcomes for the RnR (n=34) and TSA (n=29). In this practice, the patients chose their surgical procedure after a discussion of the risks and benefits of each.

The two groups differed in a number of important preoperative characteristics. The RnR patients were significantly younger than the TSA patients (60 ± 7 vs 68 ± 8, p<0.001), predominantly male (97% vs 41%, p<0.001), and were healthier as reflected by the American Society of Anesthesiologists score (p=0.018). 

Patient-assessed preoperative and postoperative function was documented by the Simple Shoulder Test (SST)

The preoperative and the postoperative SST scores were higher for the patients having the ream and run procedure than for those having total shoulders.

Total shoulder

In the TSA group, the pain score decreased from a preoperative average of 6.6 ± 2.2 to 1.2 ± 2.3 (p < 0.001), and the SST score improved from and average of 3.8 ± 2.6 to 8.9 ± 2.6 at 10-year follow-up. (p < 0.001). The percent of maximum possible improvement averaged 64%. No patient in the TSA group required reoperation; notably there were no cuff tears or glenoid loosenings.

Ream and Run

In the RnR group, the pain score decreased from a preoperative average of 6.5 ± 1.9 to 0.9 ± 1.3 (p < 0.001), while the SST score improved from and average of 5.4 ± 2.4 to 10.3 ± 2.1 at 10-year follow-up (p < 0.001).  The percent of maximum possible improvement averaged 83%. 

Four patients  underwent single-stage exchange to another hemiarthroplasty because of painful stiffness. Two of these 4 patients had positive cultures for Cutibacterium. One patient required manipulation under anesthesia. No patients had conversion to a TSA or reverse total shoulder. 

At followup, a larger percentage of RnR patients could perform high-level shoulder functions: SST questions 7, 8, 9, 10, and 12.

As an example, a 15-year post RnR followup x-ray of the shoulder shown at the beginning of this post is shown below. Note the stable humeral fixation and the seating of the humeral head centered in the healed glenoid concavity.

This patient (now 71 years old) continues to use his arm for heavy physical work and recreation. He has excellent range of motion, comfort and function and now returns for an RnR on his opposite shoulder.

 

Comment: Patients with glenohumeral osteoarthritis and their surgeons have the choice of the ream and run and anatomic total shoulder. This is one of the few long term studies of the patients having each of the procedures. It is notable that young, healthy, male patients preferred the ream and run procedure after a discussion of the pros and cons of each. The RnR patients had higher levels of function both before and after surgery - particularly for the more demanding activities assessed by the Simple Shoulder Test.

As is necessary for all clinical outcome studies, this article reported the number of patients enrolled in the database and the number and reasons groups of patients were not included in the final analysis. This is the standard "Figure 1", which seems absent in many reports.

This figure shows the challenge in achieving long term followup on a high percentage of patients.

You can support cutting edge shoulder research that is leading to better care for patients with shoulder problems, click on this link.

Follow on twitter: https://twitter.com/shoulderarth
Follow on facebook: click on this link
Follow on facebook: https://www.facebook.com/frederick.matsen
Follow on LinkedIn: https://www.linkedin.com/in/rick-matsen-88b1a8133/

Here are some videos that are of shoulder interest
Shoulder arthritis - what you need to know (see this link).
How to x-ray the shoulder (see this link).
The ream and run procedure (see this link).
The total shoulder arthroplasty (see this link).
The cuff tear arthropathy arthroplasty (see this link).
The reverse total shoulder arthroplasty (see this link).
The smooth and move procedure for irreparable rotator cuff tears (see this link).
Shoulder rehabilitation exercises (see this link).

Shoulder arthroplasty - do patients with long term followup have better average outcomes?

A recent post pointed out that it is difficult to accurately assess long term outcomes from shoulder arthroplasty (see Comparing anatomic and reverse total shoulder arthroplasty outcomes - long term followup is difficult): the longer the period of followup, the fewer of the original group of patients that are available for study and the "better" the average outcomes are for the available patients. In other words, the process of long term followup selects for patients who have good results while tending to omit those with poor outcomes, those having revisions, those in poor health, and those who are deceased. Sort of a Darwinian "survival of the fittest", resulting in the paradox that long term outcomes appear to be better than short term outcomes.

This topic was addressed by the authors of Patients Lost to Follow-up in Shoulder Arthroplasty: Descriptive Characteristics and Reasons. Paraphrasing their introduction, incomplete follow-up represents one of the major sources of bias. Patients lost to follow-up may differ from those that do not drop out and the rate of patients lost may differ between study groups. Patients lost are not random; they may have poorer outcomes than respondent patients, thereby making for an overestimation of the outcomes when only respondents are included. The characteristics of the patients lost to follow-up may differ with respect to the type of pathology, age, sex, socioeconomic status, distance of their home from the provider, education, language, ethnicity, co-morbidities and adverse outcomes. The longer the follow-up, the greater the number of patients lost to follow-up and the less representative the patients with long term followup are in comparison to the original cohort.

These authors sought to determine the number of patients in their practice lost to follow-up by year after shoulder arthroplasty and to investigate the characteristics of the patients lost to follow-up in comparison to those not lost to follow-up. They reviewed 251 shoulder arthroplasties performed from January 2008 to December 2014.

At 8 years after surgery, 86 patients (34.3%) were lost to followup.  The cumulative percent of patients lost to followup by year after surgery is shown below.

The patients lost to followup were more likely to be severely obese, to be elderly, to have higher ASA scores, to have arthroplasties performed for fracture-related diagnoses. Patients with complications had a lower risk of being lost.

In 81 of the 86 patients lost to follow-up, several telephone contacts were tried at the end of the present study. Fourteen patients did not respond to the calls. Sixteen patients died during the time of data collection and analysis. Ten of the 47 patients that responded to the

call (21.2%) agreed to have another visit if they could, 36 did not agree (76.6%), and 4 (8.5%) declined to respond. Among the reasons that the patients or their relatives gave for not going to their appointments, 8 patients were too old to make the trip, 15 were in a bad state, 18 thought there was no reason to come back for the visit, 6 did not return due to administrative problems, and 5 had other reasons.

Comment: Several conclusions can be drawn:

(1) In the study of shoulder arthroplasty, followup beyond 5 years is essential, because that is when the failures start to occur, yet such studies are at risk for sampling error.

(2) Clinical investigators need to implement followup strategies that optimize the percentage of patients who continue to participate for longer than five years. Such strategies include using a followup instrument that is user-friendly for older patients, for those in poor health, for those for whom English is the second language, for those who live remotely, and for those with limited education and financial resources. These patients tend to be systematically excluded by followup systems that require patients to return to the office for followup, that require range of motion and strength measurements, that require the use of a computer interface, or that require complex/long forms to complete. Followup for these patients can be most easily achieved by a patient friendly tool, such as the Simple Shoulder Test, that can be completed by the patient using only a pencil in less than a minute while assessing individual shoulder functions that are important to the patient.

(3) Reports of clinical outcomes need to include

    (a)  the number of patients that received the procedure being studied and the number and reasons for patients that were lost to followup as well as

    (b) a comparison of the important characteristics of patients lost to followup in comparison to those not lost to followup: type of pathology, age, sex, and co-morbidities. Ideally, socioeconomic status, education, and ethnicity would also be included to determine the extent to which the subset with followup was representative of the entire cohort of patients receiving the procedure.

To add this blog to your reading list in Google Chrome, click on the reading list icon

You can support cutting edge shoulder research that is leading to better care for patients with shoulder problems, click on this link.

Follow on twitter: https://twitter.com/shoulderarth

Follow on facebook: click on this link

Follow on facebook: https://www.facebook.com/frederick.matsen

Follow on LinkedIn: https://www.linkedin.com/in/rick-matsen-88b1a8133/

Here are some videos that are of shoulder interest

Shoulder arthritis - what you need to know (see this link).

How to x-ray the shoulder (see this link).

The ream and run procedure (see this link).

The total shoulder arthroplasty (see this link).

The cuff tear arthropathy arthroplasty (see this link).

The reverse total shoulder arthroplasty (see this link).

The smooth and move procedure for irreparable rotator cuff tears (see this link).

Shoulder rehabilitation exercises (see this link).