7 Clinical Trials for Various Conditions
The investigators aim to determine whether cervical paravertebral muscle twitching during motor testing as part of performing cervical RFAs is associated with a greater likelihood of treatment success, and greater magnitude or duration of analgesia. The investigators propose a straightforward grading scale based on visual and tactile information readily available during RFA procedures as part of routine practice (per radiofrequency electrode: 0 = no twitches palpated or observed; 1 = twitches palpated but not observed; 2 = twitches palpated and observed at 1-2 levels; 3= twitches palpated and observed at \>2 levels). If a higher weighted score (total score divided by number of radiofrequency lesion sites) correlates with a greater likelihood of treatment success, or magnitude or duration of analgesia following cervical RFA, cervical paraspinal muscle twitching may serve as a readily obtainable prognostic factor (marker) for effectiveness.
Cervical medial branch radiofrequency ablation (CMBRFA) is an effective treatment for cervical facet pain. The efficacy of CMBRFA was proven by studies published in the late 1990's and early 2000's. Patients were selected by a strict, labor-intensive placebo-controlled, diagnostic block protocol and were treated using a conventional monopolar cannula that was positioned parallel to the medial branch, two to three lesions per medial branch nerve and both sagittal and oblique passes. Since the original CMBRFA publications, patient selection for CMBRFA is less strict, and new RFA cannulae have been developed to improve efficiency and safety while maintaining a large ablative lesion. Current clinical patient selection criteria for CMBRFA tend to be more relaxed than described in early research studies. However, subsequent research has shown that when selection criteria are too relaxed, outcomes are poorer. A recent cross-sectional study reported that when CMBRFA is done in patients selected by \>80% pain improvement after dual medial branch blocks, outcomes are similar to patients selected with a stricter selection protocol (100% pain relief) similar to the original CMBRFA studies. Although, the cross-sectional study suggests an appropriate selection criteria, it has not been used in any prospective studies. The Trident multi-tined cannula is a recent technology that produces a large ablative lesion distal to the triple-tined tip. This design allows a perpendicular/lateral approach to CMBRFA and only requires a single lesion at each medial branch. This differs from the conventional cannula, which produces it's most extensive ablative lesion along the cannula with minimal distal projection. As a result, it requires a parallel approach with multiple burn cycles at the same medial branch. The perpendicular approach with Trident and single lesion cycle at each medial branch are appealing for safety purposes and efficiency however, it's efficacy has not been directly compared to the standard conventional cannula. Problem: There are no randomized controlled trials comparing novel technologies like Trident cannula to the previously studied conventional cannula in patients selected with a more practical selection criteria. Purpose: To compared procedural characteristics, pain, and disability outcomes of CMBRFA using either a Trident or conventional cannula in patients with confirmed facet mediated pain (defined by ≥80% symptom reduction after dual medial branch block). Central Hypothesis: Trident cannula during CMBRFA will result in noninferior improvements in pain and function compared to conventional cannula but will significantly reduce procedural discomfort, time and radiation exposure. Specific Aims: 1. Determine the proportion of patients with a successful pain response (defined as ≥50% improvement in index pain) to Trident (T-CMBRFA) versus conventional (C-CMBRFA) at 3, 6, and 12 months. 2. Determine the proportion of patients with a successful functional response (defined as ≥10% reduction on neck disability index \[NDI\]) to T-CMBRFA versus C-CMBRFA at 3, 6, and 12 months. 3. Determine the proportion of patients with a successful perception of improvement (defined as a score ≥6 on the Patient Global Impression of Change \[PGIC\]) to T-CMBRFA versus C-CMBRFA at 3, 6, and 12 months.
The purpose of this study is to determine if cortisone shots in the neck are helpful in patients with certain MRI findings. Additionally, the investigators hope to learn if cervical facet joint steroid injections are beneficial in the subset of patients with MRI findings consistent with facet joint synovitis.
1. To demonstrate whether: i. Facet joint nerve blocks have therapeutic value beyond the duration of local anesthetic effect. ii. Adjuvant medications (Sarapin and Depo-Medrol) provide additional relief of cervical facet joint pain when used with facet joint nerve blocks. 2. To demonstrate whether or not there are clinically significant improvements in function of patients who receive cervical facet joint nerve block with or without Sarapin and Depo-Medrol (Group II) compared to patients randomized to Group I who receive only local anesthetic blocks. 3. To determine the adverse event profile in both groups.
Observational study of axial spine pain and hyperflexibility. Patients will receive physical exam maneuvers (traditional straight leg raise, FABER, facet loading as well as Beighton's hypermobility score) and blood / urine / saliva collection. They will also be separated into pain groups based on their response to injections. A correlation between exam findings and procedure group will be measured.
The objective of this study is to provide pain relief to patients with facet joint disease or head and neck pain related to compression of a nerve root. The goal is to provide palliative care with superior efficacy and longer relief compared to current methods.
Cervical facet arthropathy is a common cause of chronic neck pain. The "gold standard" for diagnosis is either blocking the facet joints, or more commonly blocking the medial branch nerves that innervate the joints. However, many studies have found a high false-positive rate when the nerves are blocked using 0.5 ml of local anesthetic. We will randomize patients to receive either cervical facet medial branch blocks with 0.25 ml of local anesthetic and contrast, or 0.5 ml. We will then do a CT scan to determine the accuracy and specificity of each block. Our hypothesis is that using the higher volume (0.5 ml) might be responsible for the high false-positive rate.