The Finger Goniometer from Baseline Plastic is a precise, clear plastic instrument designed for clinical assessment of finger range of motion (ROM). Its transparent body provides unobstructed visibility of bony landmarks and joint lines, aiding accurate alignment and reducing estimation errors during measurement. The instrument is lightweight and durable, making it well suited for daily use in busy clinics, rehabilitation settings, or academic training environments. This goniometer offers a broad measurement span from 30° hyperextension to 120° flexion, enabling clinicians to capture both rigid and flexible finger joints with a single tool. It is designed for ROM measurements across the hand’s major joints, including the metacarpophalangeal joints (MCPs), proximal interphalangeal joints (PIPs), and distal interphalangeal joints (DIPs). The clear plastic construction helps practitioners verify proper placement quickly, supporting consistent documentation of joint motion over time. To perform a measurement, place the axis at the joint center and align the stationary arm with the proximal segment while the moving arm follows the distal segment as the finger moves. Read the measurement at the point where the moving arm aligns with the scale. The transparent material facilitates easy verification of landmark alignment during repeated assessments, contributing to repeatable results across clinicians and sessions. Key design benefits include a lightweight, portable form factor and a transparent body that enhances landmark visibility. This combination supports efficient use in routine follow-ups, pre- and post-operative assessments, and research protocols that require standardized finger ROM data. The Baseline Plastic finger goniometer integrates smoothly into patient charts, electronic medical records, and treatment plans, helping clinicians document progress with objective metrics. In clinical practice, reliable, easy-to-read instruments support timely decision-making and objective recording of progress. This goniometer delivers straightforward measurements that can be readily incorporated into documentation workflows, training curricula, and evidence-based hand therapy protocols. Its simplicity reduces training time for new staff and students, while its accuracy-enhancing visibility promotes consistency in measurements across different practitioners and examination sessions. Applications extend across rehabilitation and diagnostic settings, including occupational therapy, physical therapy, and hand clinics. The tool is suited for routine ROM tracking, surgical follow-ups, and educational demonstrations where standardized data underpin patient care and outcomes tracking. The clear, durable construction ensures dependable performance in everyday use, while the broad ROM range accommodates a wide spectrum of finger motion assessments. Overall, the instrument combines clear visibility, durable plastic construction, and a functional measurement range to meet the needs of clinicians seeking a dependable tool for finger ROM assessment. Its clear design, practical accuracy, and versatile joint coverage make it a practical addition to clinical practice, training programs, and research protocols that rely on consistent, objective measurements of finger motion.

The Finger Goniometer from Baseline Plastic is a precise, clear plastic instrument designed for clinical assessment of finger range of motion (ROM). Its transparent body provides unobstructed visibility of bony landmarks and joint lines, aiding accurate alignment and reducing estimation errors during measurement. The instrument is lightweight and durable, making it well suited for daily use in busy clinics, rehabilitation settings, or academic training environments. This goniometer offers a broad measurement span from 30° hyperextension to 120° flexion, enabling clinicians to capture both rigid and flexible finger joints with a single tool. It is designed for ROM measurements across the hand’s major joints, including the metacarpophalangeal joints (MCPs), proximal interphalangeal joints (PIPs), and distal interphalangeal joints (DIPs). The clear plastic construction helps practitioners verify proper placement quickly, supporting consistent documentation of joint motion over time. To perform a measurement, place the axis at the joint center and align the stationary arm with the proximal segment while the moving arm follows the distal segment as the finger moves. Read the measurement at the point where the moving arm aligns with the scale. The transparent material facilitates easy verification of landmark alignment during repeated assessments, contributing to repeatable results across clinicians and sessions. Key design benefits include a lightweight, portable form factor and a transparent body that enhances landmark visibility. This combination supports efficient use in routine follow-ups, pre- and post-operative assessments, and research protocols that require standardized finger ROM data. The Baseline Plastic finger goniometer integrates smoothly into patient charts, electronic medical records, and treatment plans, helping clinicians document progress with objective metrics. In clinical practice, reliable, easy-to-read instruments support timely decision-making and objective recording of progress. This goniometer delivers straightforward measurements that can be readily incorporated into documentation workflows, training curricula, and evidence-based hand therapy protocols. Its simplicity reduces training time for new staff and students, while its accuracy-enhancing visibility promotes consistency in measurements across different practitioners and examination sessions. Applications extend across rehabilitation and diagnostic settings, including occupational therapy, physical therapy, and hand clinics. The tool is suited for routine ROM tracking, surgical follow-ups, and educational demonstrations where standardized data underpin patient care and outcomes tracking. The clear, durable construction ensures dependable performance in everyday use, while the broad ROM range accommodates a wide spectrum of finger motion assessments. Overall, the instrument combines clear visibility, durable plastic construction, and a functional measurement range to meet the needs of clinicians seeking a dependable tool for finger ROM assessment. Its clear design, practical accuracy, and versatile joint coverage make it a practical addition to clinical practice, training programs, and research protocols that rely on consistent, objective measurements of finger motion.